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Deck 27: Magnetic Interactions

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Question
A vertical wire carries a current straight down.To the east of this wire,the magnetic field points

A) toward the north.
B) toward the east.
C) toward the west.
D) toward the south.
E) downward.
Use Space or
up arrow
down arrow
to flip the card.
Question
A proton,with mass 1.67 × 10-27 kg and charge +1.6 × 10-19 C,is sent with velocity 7.1 × 104 m/s in the +x direction into a region where there is a uniform electric field of magnitude 730 V/m in the +y direction.What are the magnitude and direction of the uniform magnetic field in the region,if the proton is to pass through undeflected? Assume that the magnetic field has no x-component and neglect gravitational effects.
Question
An electron moving in the direction of the +x-axis enters a magnetic field.If the electron experiences a magnetic deflection in the -y direction,the direction of the magnetic field in this region points in the direction of the

A) +z-axis.
B) -z-axis.
C) -x-axis.
D) +y-axis.
E) -y-axis.
Question
An electron moves with a speed of 8.0 × 106 m/s along the +x-axis. It enters a region where there is a magnetic field of 2.5 T,directed at an angle of 60° to the +x-axis and lying in the xy-plane.
(1 eV = 1.60 × 10-19 C,mel = 9.11 × 10-31 kg)Calculate the magnitude of
(a)the magnetic force on the electron.
(b)the acceleration of the electron.
Question
Three particles travel through a region of space where the magnetic field is out of the page,as shown in the figure.The electric charge of each of the three particles is,respectively, <strong>Three particles travel through a region of space where the magnetic field is out of the page,as shown in the figure.The electric charge of each of the three particles is,respectively, </strong> A) 1 is neutral, 2 is negative, and 3 is positive. B) 1 is neutral, 2 is positive, and 3 is negative. C) 1 is positive, 2 is neutral, and 3 is negative. D) 1 is positive, 2 is negative, and 3 is neutral. E) 1 is negative, 2 is neutral, and 3 is positive. <div style=padding-top: 35px>

A) 1 is neutral, 2 is negative, and 3 is positive.
B) 1 is neutral, 2 is positive, and 3 is negative.
C) 1 is positive, 2 is neutral, and 3 is negative.
D) 1 is positive, 2 is negative, and 3 is neutral.
E) 1 is negative, 2 is neutral, and 3 is positive.
Question
An electron,moving toward the west,enters a uniform magnetic field.Because of this field the electron curves upward.The direction of the magnetic field is

A) towards the north.
B) towards the south.
C) towards the west.
D) upward.
E) downward.
Question
A beam of electrons is accelerated through a potential difference of 10 kV before entering a region having uniform electric and magnetic fields that are perpendicular to each other and perpendicular to the direction in which the electron is moving. If the magnetic field in this region has a value of 0.010 T,what magnitude of the electric field is required if the particles are to be undeflected as they pass through the region?

A) 2.3 × 103 V/m
B) 7.9 × 103 V/m
C) 5.9 × 105 V/m
D) 6.0 × 105 V/m
E) 7.2 × 106 V/m
Question
Ions having equal charges but masses of M and 2M are accelerated through the same potential difference and then enter a uniform magnetic field perpendicular to their path.If the heavier ions follow a circular arc of radius R,what is the radius of the arc followed by the lighter?

A) 4R
B) 3R
C) <strong>Ions having equal charges but masses of M and 2M are accelerated through the same potential difference and then enter a uniform magnetic field perpendicular to their path.If the heavier ions follow a circular arc of radius R,what is the radius of the arc followed by the lighter?</strong> A) 4R B) 3R C) R D) R/ E) R/2 <div style=padding-top: 35px> R
D) R/ <strong>Ions having equal charges but masses of M and 2M are accelerated through the same potential difference and then enter a uniform magnetic field perpendicular to their path.If the heavier ions follow a circular arc of radius R,what is the radius of the arc followed by the lighter?</strong> A) 4R B) 3R C) R D) R/ E) R/2 <div style=padding-top: 35px>
E) R/2
Question
A horizontal wire carries a current straight toward you.From your point of view,the magnetic field at a point directly below the wire points

A) directly away from you.
B) to the left.
C) to the right.
D) directly toward you.
E) vertically upward.
Question
The figure shows a velocity selector that can be used to measure the speed of a charged particle.A beam of particles is directed along the axis of the instrument.A parallel plate capacitor sets up an electric field E,which is oriented perpendicular to a uniform magnetic field B.If the plates are separated by
2)0 mm and the value of the magnetic field is 0.60 T,what voltage between the plates will allow particles of speed 5.0 × 105 m/s to pass straight through without deflection? <strong>The figure shows a velocity selector that can be used to measure the speed of a charged particle.A beam of particles is directed along the axis of the instrument.A parallel plate capacitor sets up an electric field E,which is oriented perpendicular to a uniform magnetic field B.If the plates are separated by 2)0 mm and the value of the magnetic field is 0.60 T,what voltage between the plates will allow particles of speed 5.0 × 10<sup>5</sup> m/s to pass straight through without deflection? </strong> A) 600 V B) 1900 V C) 3800 V D) 190 V E) 94 V <div style=padding-top: 35px>

A) 600 V
B) 1900 V
C) 3800 V
D) 190 V
E) 94 V
Question
A uniform magnetic field of magnitude 0.80 T in the negative z direction is present in a region of space,as shown in the figure.A uniform electric field is also present and is set at 76,000 V/m in the +y direction.An electron is projected with an initial velocity v0 = 9.5 × 104 m/s in the +x direction.The y component of the initial force on the electron is closest to which of the following quantities? (e = 1.60 × 10-19C)
<strong>A uniform magnetic field of magnitude 0.80 T in the negative z direction is present in a region of space,as shown in the figure.A uniform electric field is also present and is set at 76,000 V/m in the +y direction.An electron is projected with an initial velocity v<sub>0</sub> = 9.5 × 10<sup>4</sup> m/s in the +x direction.The y component of<sup> </sup>the initial force on the electron is closest to which of the following quantities?<sup> </sup>(e = 1.60 × 10<sup>-19</sup>C) </strong> A) -2.4 × 10<sup>-14</sup> N B) <sub>+2.4 </sub>× 10<sup>-14</sup> N C) -<sub>1.0 </sub>× 10<sup>-14</sup> N D) <sub>+1.0 </sub>× 10<sup>-14</sup> N <div style=padding-top: 35px>

A) -2.4 × 10-14 N
B) +2.4 × 10-14 N
C) -1.0 × 10-14 N
D) +1.0 × 10-14 N
Question
An electron traveling toward the north with speed 4.0 × 105 m/s enters a region where the Earth's magnetic field has the magnitude 5.0 × 10-5 T and is directed downward at 45° below horizontal. What is the magnitude of the force that the Earth's magnetic field exerts on the electron? (e = 1.60 × 10-19C)

A) 2.3 × 10-18 N
B) 3.2 × 10-18 N
C) 2.3 × 10-19 N
D) 3.2 × 10-19 N
E) 2.3 × 10-20 N
Question
A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v0 = 9.1 × 104 m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m <div style=padding-top: 35px>

A) -73 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m <div style=padding-top: 35px>
B) +73 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m <div style=padding-top: 35px>
C) +110 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m <div style=padding-top: 35px>
D) +110 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m <div style=padding-top: 35px>
E) -110 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m <div style=padding-top: 35px>
Question
An electron moving with a velocity <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px> = 5.0 × 107 m/s <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
= <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
)What magnetic field will allow the electron to go through the region without being deflected?

A) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px> = +2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
B) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px> = -2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
C) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px> = +2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
D) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px> = -2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
E) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px> = +5.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T <div style=padding-top: 35px>
Question
An alpha particle is moving at a speed of 5.0 × 105 m/s in a direction perpendicular to a uniform magnetic field of strength 0.040 T.The charge on an alpha particle is 3.2 × 10-19 C and its mass is
6.6 × 10-27 kg.
(a)What is the radius of the path of the alpha particle?
(b)How long does it take the alpha particle to make one complete revolution around its path?
Question
A vertical wire carries a current vertically upward in a region where the magnetic field vector points toward the north.What is the direction of the magnetic force on this current due to the field?

A) downward
B) toward the north
C) toward the south
D) toward the east
E) toward the west
Question
A charge is accelerated from rest through a potential difference V and then enters a uniform magnetic field oriented perpendicular to its path.The field deflects the particle into a circular arc of radius R.If the accelerating potential is tripled to 3V,what will be the radius of the circular arc?

A) 9R
B) 3R
C) <strong>A charge is accelerated from rest through a potential difference V and then enters a uniform magnetic field oriented perpendicular to its path.The field deflects the particle into a circular arc of radius R.If the accelerating potential is tripled to 3V,what will be the radius of the circular arc?</strong> A) 9R B) 3R C) R D) R/ E) R/9 <div style=padding-top: 35px> R
D) R/ <strong>A charge is accelerated from rest through a potential difference V and then enters a uniform magnetic field oriented perpendicular to its path.The field deflects the particle into a circular arc of radius R.If the accelerating potential is tripled to 3V,what will be the radius of the circular arc?</strong> A) 9R B) 3R C) R D) R/ E) R/9 <div style=padding-top: 35px>
E) R/9
Question
A current carrying loop of wire lies flat on a table top.When viewed from above,the current moves around the loop in a counterclockwise sense.
(a)For points OUTSIDE the loop,the magnetic field caused by this current
A)circles the loop in a clockwise direction.
B)circles the loop in a counterclockwise direction.
C)points straight up.
D)points straight down.
E)is zero.
(b)For points INSIDE the loop,the magnetic field caused by this current\
A)circles the loop in a clockwise direction.
B)circles the loop in a counterclockwise direction.
C)points straight up.
D)points straight down.
E)is zero.
Question
A particle with charge -5.00 C initially moves at <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> = (1.00 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px>
+ 7)00 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px>
)m/s. If it encounters a magnetic field <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px>
Find the magnetic force vector on the particle.

A) (-350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> + 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> ) N
B) (-350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> - 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> ) N
C) (350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> + 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> ) N
D) (350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> - 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N <div style=padding-top: 35px> ) N
Question
A charged particle is moving with speed v perpendicular to a uniform magnetic field.A second identical charged particle is moving with speed 2v perpendicular to the same magnetic field.If the frequency of revolution of the first particle is f,the frequency of revolution of the second particle is

A) f.
B) 2f.
C) 4f.
D) f/2.
E) f/4.
Question
A straight wire that is 0.60 m long is carrying a current of 2.0 A.It is placed in a uniform magnetic field of strength 0.30 T.If the wire experiences a force of 0.18 N,what angle does the wire make with respect to the magnetic field?

A) 25°
B) 30°
C) 35°
D) 60°
E) 90°
Question
A thin copper rod that is 1.0 m long and has a mass of 0.050 kg is in a magnetic field of 0.10 T. What minimum current in the rod is needed in order for the magnetic force to cancel the weight of the rod?

A) 1.2 A
B) 2.5 A
C) 4.9 A
D) 7.6 A
E) 9.8 A
Question
A rigid rectangular loop,which measures 0.30 m by 0.40 m,carries a current of 5.5 A,as shown in the figure.A uniform external magnetic field of magnitude 2.9 T in the negative x direction is present.Segment CD is in the xz-plane and forms a 35° angle with the z-axis,as shown.Find the magnitude of the external torque needed to keep the loop in static equilibrium. <strong>A rigid rectangular loop,which measures 0.30 m by 0.40 m,carries a current of 5.5 A,as shown in the figure.A uniform external magnetic field of magnitude 2.9 T in the negative x direction is present.Segment CD is in the xz-plane and forms a 35° angle with the z-axis,as shown.Find the magnitude of the external torque needed to keep the loop in static equilibrium. </strong> A) 1.1 N • m B) 0.73 N • m C) 1.3 N • m D) 1.4 N • m E) 1.6 N • m <div style=padding-top: 35px>

A) 1.1 N • m
B) 0.73 N • m
C) 1.3 N • m
D) 1.4 N • m
E) 1.6 N • m
Question
A doubly charged ion (charge 2e)with velocity 6.9 × 106 m/s moves in a circular path of diameter
60)0 cm in a magnetic field of 0.80 T in a mass spectrometer. What is the mass of this ion?
(e = 1.60 × 10-19C)

A) 11 × 10-27 kg
B) 6.7 × 10-27 kg
C) 4.5 × 10-27 kg
D) 3.3 × 10-27 kg
Question
An L-shaped metal machine part is made of two equal-length segments that are perpendicular to each other and carry a 4.50-A current as shown in the figure.This part has a total mass of 3.80 kg and a total length of 3.00 m,and it is in an external 1.20-T magnetic field that is oriented perpendicular to the plane of the part,as shown.What is the magnitude of the NET magnetic force that the field exerts on the part? <strong>An L-shaped metal machine part is made of two equal-length segments that are perpendicular to each other and carry a 4.50-A current as shown in the figure.This part has a total mass of 3.80 kg and a total length of 3.00 m,and it is in an external 1.20-T magnetic field that is oriented perpendicular to the plane of the part,as shown.What is the magnitude of the NET magnetic force that the field exerts on the part? </strong> A) 8.10 N B) 11.5 N C) 16.2 N D) 22.9 N E) 32.4 N <div style=padding-top: 35px>

A) 8.10 N
B) 11.5 N
C) 16.2 N
D) 22.9 N
E) 32.4 N
Question
A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px>

A) +1.6 N <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px>
B) -1.6 N <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px>
C) +1.6 N <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px>
D) (+1.3 <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px> - 1.6
<strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px> ) N
E) (-1.3 <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px> + 1.6
<strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N <div style=padding-top: 35px> N
Question
A wire in the shape of an "M" lies in the plane of the paper.It carries a current of 2.0 A,flowing from points A to E,as shown in the figure.It is placed in a uniform magnetic field of 0.75 T in the same plane,directed as shown on the right side of the figure.The figure indicates the dimensions of the wire.What are the magnitude and direction of the force acting on A wire in the shape of an M lies in the plane of the paper.It carries a current of 2.0 A,flowing from points A to E,as shown in the figure.It is placed in a uniform magnetic field of 0.75 T in the same plane,directed as shown on the right side of the figure.The figure indicates the dimensions of the wire.What are the magnitude and direction of the force acting on (a)section AB of this wire? (b)section BC of this wire? (c)section CD of this wire? (d)section DE of this wire? (e)the entire wire?<div style=padding-top: 35px>
(a)section AB of this wire?
(b)section BC of this wire?
(c)section CD of this wire?
(d)section DE of this wire?
(e)the entire wire?
Question
Alpha particles (charge = +2e,mass = 6.68 × 10-27 kg,e = 1.60 × 10-19C)0.87 μs.

A) 0.44 μs.
B) 0.67 μs.
C) are accelerated in a cyclotron to a final orbit radius of 0.90 m. The magnetic field in the cyclotron is 0.30 T. The period of the circular motion of the alpha particles is closest to
D) 1.1 μs.
Question
A proton is first accelerated from rest through a potential difference V and then enters a uniform 0.750-T magnetic field oriented perpendicular to its path.In this field,the proton follows a circular arc having a radius of curvature of 1.84 cm.What was the potential difference V? (mproton = 1.67 × 10-27 kg,
e = 1.60 × 10-19
C)
Question
As shown in the figure,a small particle of charge q = -7.0 × 10-6 C and mass m = 3.1 × 10-12 kg has velocity v0 = 9.4 × 103 m/s as it enters a region of uniform magnetic field.The particle is observed to travel in the semicircular path shown,with radius R = 5.0 cm.Calculate the magnitude and direction of the magnetic field in the region. As shown in the figure,a small particle of charge q = -7.0 × 10<sup>-6</sup> C and mass m = 3.1 × 10<sup>-12</sup> kg has velocity v<sub>0</sub> = 9.4 × 10<sup>3</sup> m/s as it enters a region of uniform magnetic field.The particle is observed to travel in the semicircular path shown,with radius R = 5.0 cm.Calculate the magnitude and direction of the magnetic field in the region. <div style=padding-top: 35px>
Question
An electron enters a magnetic field of 0.75 T with a velocity perpendicular to the direction of the field.At what frequency does the electron traverse a circular path? (mel = 9.11 × 10-31 kg,e = 1.60 × 10-19C)

A) 2.1 × 1010 Hz
B) 4.8 × 10-7 Hz
C) 2.1 × 1014 Hz
D) 4.8 × 10-11 Hz
Question
A straight 15.0-g wire that is 2.00 m long carries a current of 8.00 A.This wire is aligned horizontally along the west-east direction with the current going from west to east.You want to support the wire against gravity using the weakest possible uniform external magnetic field.
(a)Which way should the magnetic field point?
(b)What is the magnitude of the weakest possible magnetic field you could use?
Question
A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px>

A) (+1.1 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> - 1.8
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> ) N
B) (-1.1 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> + 1.8
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> ) N
C) (-1.1 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> - 1.8
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> ) N
D) (+1.8 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> - 1.1
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> ) N
E) (-1.8 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> + 1.1
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N <div style=padding-top: 35px> ) N
Question
A wire along the z-axis carries a current of 6.8 A in the +z direction.Find the magnitude and direction of the force exerted on a 6.1-cm long length of the wire by a uniform magnetic field with magnitude 0.36 T in the -x direction.
Question
A charged particle of mass 0.0020 kg is subjected to a 6.0 T magnetic field which acts at a right angle to its motion.If the particle moves in a circle of radius 0.20 m at a speed of 5.0 m/s,what is the magnitude of the charge on the particle?

A) 0.0083 C
B) 120 C
C) 0.00040 C
D) 2500 C
Question
In a mass spectrometer,a singly-charged particle (charge e)has a speed of 1.0 × 106 m/s and enters a uniform magnetic field of 0.20 T. The radius of the circular orbit of the particle is 0.020 m. What is the mass of this particle? (e = 1.60 × 10-19C)

A) 3.2 × 10-28 kg
B) 6.4 × 10-28 kg
C) 1.7 × 10-27 kg
D) 4.5 × 10-27 kg
Question
A wire carries a 4.0-A current along the +x-axis through a magnetic field <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m <div style=padding-top: 35px> = (5.0 <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m <div style=padding-top: 35px>
+ 7)0 <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m <div style=padding-top: 35px>
)T) If the wire experiences a force of 30 N <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m <div style=padding-top: 35px>
As a result,how long is the wire?

A) 1.1 m
B) 0.87 m
C) 1.5 m
D) 0.63 m
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Deck 27: Magnetic Interactions
1
A vertical wire carries a current straight down.To the east of this wire,the magnetic field points

A) toward the north.
B) toward the east.
C) toward the west.
D) toward the south.
E) downward.
toward the south.
2
A proton,with mass 1.67 × 10-27 kg and charge +1.6 × 10-19 C,is sent with velocity 7.1 × 104 m/s in the +x direction into a region where there is a uniform electric field of magnitude 730 V/m in the +y direction.What are the magnitude and direction of the uniform magnetic field in the region,if the proton is to pass through undeflected? Assume that the magnetic field has no x-component and neglect gravitational effects.
0.010 T
,+z direction
3
An electron moving in the direction of the +x-axis enters a magnetic field.If the electron experiences a magnetic deflection in the -y direction,the direction of the magnetic field in this region points in the direction of the

A) +z-axis.
B) -z-axis.
C) -x-axis.
D) +y-axis.
E) -y-axis.
-z-axis.
4
An electron moves with a speed of 8.0 × 106 m/s along the +x-axis. It enters a region where there is a magnetic field of 2.5 T,directed at an angle of 60° to the +x-axis and lying in the xy-plane.
(1 eV = 1.60 × 10-19 C,mel = 9.11 × 10-31 kg)Calculate the magnitude of
(a)the magnetic force on the electron.
(b)the acceleration of the electron.
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5
Three particles travel through a region of space where the magnetic field is out of the page,as shown in the figure.The electric charge of each of the three particles is,respectively, <strong>Three particles travel through a region of space where the magnetic field is out of the page,as shown in the figure.The electric charge of each of the three particles is,respectively, </strong> A) 1 is neutral, 2 is negative, and 3 is positive. B) 1 is neutral, 2 is positive, and 3 is negative. C) 1 is positive, 2 is neutral, and 3 is negative. D) 1 is positive, 2 is negative, and 3 is neutral. E) 1 is negative, 2 is neutral, and 3 is positive.

A) 1 is neutral, 2 is negative, and 3 is positive.
B) 1 is neutral, 2 is positive, and 3 is negative.
C) 1 is positive, 2 is neutral, and 3 is negative.
D) 1 is positive, 2 is negative, and 3 is neutral.
E) 1 is negative, 2 is neutral, and 3 is positive.
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6
An electron,moving toward the west,enters a uniform magnetic field.Because of this field the electron curves upward.The direction of the magnetic field is

A) towards the north.
B) towards the south.
C) towards the west.
D) upward.
E) downward.
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7
A beam of electrons is accelerated through a potential difference of 10 kV before entering a region having uniform electric and magnetic fields that are perpendicular to each other and perpendicular to the direction in which the electron is moving. If the magnetic field in this region has a value of 0.010 T,what magnitude of the electric field is required if the particles are to be undeflected as they pass through the region?

A) 2.3 × 103 V/m
B) 7.9 × 103 V/m
C) 5.9 × 105 V/m
D) 6.0 × 105 V/m
E) 7.2 × 106 V/m
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8
Ions having equal charges but masses of M and 2M are accelerated through the same potential difference and then enter a uniform magnetic field perpendicular to their path.If the heavier ions follow a circular arc of radius R,what is the radius of the arc followed by the lighter?

A) 4R
B) 3R
C) <strong>Ions having equal charges but masses of M and 2M are accelerated through the same potential difference and then enter a uniform magnetic field perpendicular to their path.If the heavier ions follow a circular arc of radius R,what is the radius of the arc followed by the lighter?</strong> A) 4R B) 3R C) R D) R/ E) R/2 R
D) R/ <strong>Ions having equal charges but masses of M and 2M are accelerated through the same potential difference and then enter a uniform magnetic field perpendicular to their path.If the heavier ions follow a circular arc of radius R,what is the radius of the arc followed by the lighter?</strong> A) 4R B) 3R C) R D) R/ E) R/2
E) R/2
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9
A horizontal wire carries a current straight toward you.From your point of view,the magnetic field at a point directly below the wire points

A) directly away from you.
B) to the left.
C) to the right.
D) directly toward you.
E) vertically upward.
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10
The figure shows a velocity selector that can be used to measure the speed of a charged particle.A beam of particles is directed along the axis of the instrument.A parallel plate capacitor sets up an electric field E,which is oriented perpendicular to a uniform magnetic field B.If the plates are separated by
2)0 mm and the value of the magnetic field is 0.60 T,what voltage between the plates will allow particles of speed 5.0 × 105 m/s to pass straight through without deflection? <strong>The figure shows a velocity selector that can be used to measure the speed of a charged particle.A beam of particles is directed along the axis of the instrument.A parallel plate capacitor sets up an electric field E,which is oriented perpendicular to a uniform magnetic field B.If the plates are separated by 2)0 mm and the value of the magnetic field is 0.60 T,what voltage between the plates will allow particles of speed 5.0 × 10<sup>5</sup> m/s to pass straight through without deflection? </strong> A) 600 V B) 1900 V C) 3800 V D) 190 V E) 94 V

A) 600 V
B) 1900 V
C) 3800 V
D) 190 V
E) 94 V
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11
A uniform magnetic field of magnitude 0.80 T in the negative z direction is present in a region of space,as shown in the figure.A uniform electric field is also present and is set at 76,000 V/m in the +y direction.An electron is projected with an initial velocity v0 = 9.5 × 104 m/s in the +x direction.The y component of the initial force on the electron is closest to which of the following quantities? (e = 1.60 × 10-19C)
<strong>A uniform magnetic field of magnitude 0.80 T in the negative z direction is present in a region of space,as shown in the figure.A uniform electric field is also present and is set at 76,000 V/m in the +y direction.An electron is projected with an initial velocity v<sub>0</sub> = 9.5 × 10<sup>4</sup> m/s in the +x direction.The y component of<sup> </sup>the initial force on the electron is closest to which of the following quantities?<sup> </sup>(e = 1.60 × 10<sup>-19</sup>C) </strong> A) -2.4 × 10<sup>-14</sup> N B) <sub>+2.4 </sub>× 10<sup>-14</sup> N C) -<sub>1.0 </sub>× 10<sup>-14</sup> N D) <sub>+1.0 </sub>× 10<sup>-14</sup> N

A) -2.4 × 10-14 N
B) +2.4 × 10-14 N
C) -1.0 × 10-14 N
D) +1.0 × 10-14 N
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12
An electron traveling toward the north with speed 4.0 × 105 m/s enters a region where the Earth's magnetic field has the magnitude 5.0 × 10-5 T and is directed downward at 45° below horizontal. What is the magnitude of the force that the Earth's magnetic field exerts on the electron? (e = 1.60 × 10-19C)

A) 2.3 × 10-18 N
B) 3.2 × 10-18 N
C) 2.3 × 10-19 N
D) 3.2 × 10-19 N
E) 2.3 × 10-20 N
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13
A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v0 = 9.1 × 104 m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m

A) -73 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m
B) +73 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m
C) +110 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m
D) +110 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m
E) -110 kV/m <strong>A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space,as shown in the figure.A uniform electric field is also present.An electron that is projected with an initial velocity v<sub>0</sub> = 9.1 × 10<sup>4</sup> m/s in the positive x-direction passes through the region without deflection.What is the electric field vector in the region? </strong> A) -73 kV/m B) +73 kV/m C) +110 kV/m D) +110 kV/m E) -110 kV/m
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14
An electron moving with a velocity <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T = 5.0 × 107 m/s <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
= <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
)What magnetic field will allow the electron to go through the region without being deflected?

A) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T = +2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
B) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T = -2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
C) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T = +2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
D) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T = -2.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
E) <strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T = +5.0 × 10-4 T
<strong>An electron moving with a velocity = 5.0 × 10<sup>7</sup> m/s Enters a region of space where perpendicular electric and a magnetic fields are present.The electric field is = )What magnetic field will allow the electron to go through the region without being deflected?</strong> A) = +2.0 × 10<sup>-4</sup> T B) = -2.0 × 10<sup>-4</sup> T C) = +2.0 × 10<sup>-4</sup> T D) = -2.0 × 10<sup>-4</sup> T E) = +5.0 × 10<sup>-4</sup> T
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15
An alpha particle is moving at a speed of 5.0 × 105 m/s in a direction perpendicular to a uniform magnetic field of strength 0.040 T.The charge on an alpha particle is 3.2 × 10-19 C and its mass is
6.6 × 10-27 kg.
(a)What is the radius of the path of the alpha particle?
(b)How long does it take the alpha particle to make one complete revolution around its path?
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16
A vertical wire carries a current vertically upward in a region where the magnetic field vector points toward the north.What is the direction of the magnetic force on this current due to the field?

A) downward
B) toward the north
C) toward the south
D) toward the east
E) toward the west
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17
A charge is accelerated from rest through a potential difference V and then enters a uniform magnetic field oriented perpendicular to its path.The field deflects the particle into a circular arc of radius R.If the accelerating potential is tripled to 3V,what will be the radius of the circular arc?

A) 9R
B) 3R
C) <strong>A charge is accelerated from rest through a potential difference V and then enters a uniform magnetic field oriented perpendicular to its path.The field deflects the particle into a circular arc of radius R.If the accelerating potential is tripled to 3V,what will be the radius of the circular arc?</strong> A) 9R B) 3R C) R D) R/ E) R/9 R
D) R/ <strong>A charge is accelerated from rest through a potential difference V and then enters a uniform magnetic field oriented perpendicular to its path.The field deflects the particle into a circular arc of radius R.If the accelerating potential is tripled to 3V,what will be the radius of the circular arc?</strong> A) 9R B) 3R C) R D) R/ E) R/9
E) R/9
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18
A current carrying loop of wire lies flat on a table top.When viewed from above,the current moves around the loop in a counterclockwise sense.
(a)For points OUTSIDE the loop,the magnetic field caused by this current
A)circles the loop in a clockwise direction.
B)circles the loop in a counterclockwise direction.
C)points straight up.
D)points straight down.
E)is zero.
(b)For points INSIDE the loop,the magnetic field caused by this current\
A)circles the loop in a clockwise direction.
B)circles the loop in a counterclockwise direction.
C)points straight up.
D)points straight down.
E)is zero.
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19
A particle with charge -5.00 C initially moves at <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N = (1.00 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N
+ 7)00 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N
)m/s. If it encounters a magnetic field <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N
Find the magnetic force vector on the particle.

A) (-350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N + 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N ) N
B) (-350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N - 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N ) N
C) (350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N + 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N ) N
D) (350 <strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N - 50.0
<strong>A particle with charge -5.00 C initially moves at = (1.00 + 7)00 )m/s. If it encounters a magnetic field Find the magnetic force vector on the particle.</strong> A) (-350 + 50.0 ) N B) (-350 - 50.0 ) N C) (350 + 50.0 ) N D) (350 - 50.0 ) N ) N
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20
A charged particle is moving with speed v perpendicular to a uniform magnetic field.A second identical charged particle is moving with speed 2v perpendicular to the same magnetic field.If the frequency of revolution of the first particle is f,the frequency of revolution of the second particle is

A) f.
B) 2f.
C) 4f.
D) f/2.
E) f/4.
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21
A straight wire that is 0.60 m long is carrying a current of 2.0 A.It is placed in a uniform magnetic field of strength 0.30 T.If the wire experiences a force of 0.18 N,what angle does the wire make with respect to the magnetic field?

A) 25°
B) 30°
C) 35°
D) 60°
E) 90°
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22
A thin copper rod that is 1.0 m long and has a mass of 0.050 kg is in a magnetic field of 0.10 T. What minimum current in the rod is needed in order for the magnetic force to cancel the weight of the rod?

A) 1.2 A
B) 2.5 A
C) 4.9 A
D) 7.6 A
E) 9.8 A
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23
A rigid rectangular loop,which measures 0.30 m by 0.40 m,carries a current of 5.5 A,as shown in the figure.A uniform external magnetic field of magnitude 2.9 T in the negative x direction is present.Segment CD is in the xz-plane and forms a 35° angle with the z-axis,as shown.Find the magnitude of the external torque needed to keep the loop in static equilibrium. <strong>A rigid rectangular loop,which measures 0.30 m by 0.40 m,carries a current of 5.5 A,as shown in the figure.A uniform external magnetic field of magnitude 2.9 T in the negative x direction is present.Segment CD is in the xz-plane and forms a 35° angle with the z-axis,as shown.Find the magnitude of the external torque needed to keep the loop in static equilibrium. </strong> A) 1.1 N • m B) 0.73 N • m C) 1.3 N • m D) 1.4 N • m E) 1.6 N • m

A) 1.1 N • m
B) 0.73 N • m
C) 1.3 N • m
D) 1.4 N • m
E) 1.6 N • m
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24
A doubly charged ion (charge 2e)with velocity 6.9 × 106 m/s moves in a circular path of diameter
60)0 cm in a magnetic field of 0.80 T in a mass spectrometer. What is the mass of this ion?
(e = 1.60 × 10-19C)

A) 11 × 10-27 kg
B) 6.7 × 10-27 kg
C) 4.5 × 10-27 kg
D) 3.3 × 10-27 kg
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25
An L-shaped metal machine part is made of two equal-length segments that are perpendicular to each other and carry a 4.50-A current as shown in the figure.This part has a total mass of 3.80 kg and a total length of 3.00 m,and it is in an external 1.20-T magnetic field that is oriented perpendicular to the plane of the part,as shown.What is the magnitude of the NET magnetic force that the field exerts on the part? <strong>An L-shaped metal machine part is made of two equal-length segments that are perpendicular to each other and carry a 4.50-A current as shown in the figure.This part has a total mass of 3.80 kg and a total length of 3.00 m,and it is in an external 1.20-T magnetic field that is oriented perpendicular to the plane of the part,as shown.What is the magnitude of the NET magnetic force that the field exerts on the part? </strong> A) 8.10 N B) 11.5 N C) 16.2 N D) 22.9 N E) 32.4 N

A) 8.10 N
B) 11.5 N
C) 16.2 N
D) 22.9 N
E) 32.4 N
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26
A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N

A) +1.6 N <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N
B) -1.6 N <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N
C) +1.6 N <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N
D) (+1.3 <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N - 1.6
<strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N ) N
E) (-1.3 <strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N + 1.6
<strong>A wire segment 1.2 m long carries a current I = 3.5 A and is oriented as shown in the figure.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.The +z-axis points directly into the page.What is the magnetic force vector on the wire segment? </strong> A) +1.6 N B) -1.6 N C) +1.6 N D) (+1.3 - 1.6 ) N E) (-1.3 + 1.6 N N
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27
A wire in the shape of an "M" lies in the plane of the paper.It carries a current of 2.0 A,flowing from points A to E,as shown in the figure.It is placed in a uniform magnetic field of 0.75 T in the same plane,directed as shown on the right side of the figure.The figure indicates the dimensions of the wire.What are the magnitude and direction of the force acting on A wire in the shape of an M lies in the plane of the paper.It carries a current of 2.0 A,flowing from points A to E,as shown in the figure.It is placed in a uniform magnetic field of 0.75 T in the same plane,directed as shown on the right side of the figure.The figure indicates the dimensions of the wire.What are the magnitude and direction of the force acting on (a)section AB of this wire? (b)section BC of this wire? (c)section CD of this wire? (d)section DE of this wire? (e)the entire wire?
(a)section AB of this wire?
(b)section BC of this wire?
(c)section CD of this wire?
(d)section DE of this wire?
(e)the entire wire?
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28
Alpha particles (charge = +2e,mass = 6.68 × 10-27 kg,e = 1.60 × 10-19C)0.87 μs.

A) 0.44 μs.
B) 0.67 μs.
C) are accelerated in a cyclotron to a final orbit radius of 0.90 m. The magnetic field in the cyclotron is 0.30 T. The period of the circular motion of the alpha particles is closest to
D) 1.1 μs.
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29
A proton is first accelerated from rest through a potential difference V and then enters a uniform 0.750-T magnetic field oriented perpendicular to its path.In this field,the proton follows a circular arc having a radius of curvature of 1.84 cm.What was the potential difference V? (mproton = 1.67 × 10-27 kg,
e = 1.60 × 10-19
C)
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30
As shown in the figure,a small particle of charge q = -7.0 × 10-6 C and mass m = 3.1 × 10-12 kg has velocity v0 = 9.4 × 103 m/s as it enters a region of uniform magnetic field.The particle is observed to travel in the semicircular path shown,with radius R = 5.0 cm.Calculate the magnitude and direction of the magnetic field in the region. As shown in the figure,a small particle of charge q = -7.0 × 10<sup>-6</sup> C and mass m = 3.1 × 10<sup>-12</sup> kg has velocity v<sub>0</sub> = 9.4 × 10<sup>3</sup> m/s as it enters a region of uniform magnetic field.The particle is observed to travel in the semicircular path shown,with radius R = 5.0 cm.Calculate the magnitude and direction of the magnetic field in the region.
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31
An electron enters a magnetic field of 0.75 T with a velocity perpendicular to the direction of the field.At what frequency does the electron traverse a circular path? (mel = 9.11 × 10-31 kg,e = 1.60 × 10-19C)

A) 2.1 × 1010 Hz
B) 4.8 × 10-7 Hz
C) 2.1 × 1014 Hz
D) 4.8 × 10-11 Hz
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32
A straight 15.0-g wire that is 2.00 m long carries a current of 8.00 A.This wire is aligned horizontally along the west-east direction with the current going from west to east.You want to support the wire against gravity using the weakest possible uniform external magnetic field.
(a)Which way should the magnetic field point?
(b)What is the magnitude of the weakest possible magnetic field you could use?
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33
A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N

A) (+1.1 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N - 1.8
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N ) N
B) (-1.1 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N + 1.8
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N ) N
C) (-1.1 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N - 1.8
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N ) N
D) (+1.8 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N - 1.1
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N ) N
E) (-1.8 <strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N + 1.1
<strong>A wire segment 1.2 m long carries a current I = 3.5 A,and is oriented as shown in the figure.The +x-axis points directly into the page.A uniform magnetic field of magnitude 0.50 T pointing toward the -x direction is present as shown.What is the magnetic force vector on the wire segment? </strong> A) (+1.1 - 1.8 ) N B) (-1.1 + 1.8 ) N C) (-1.1 - 1.8 ) N D) (+1.8 - 1.1 ) N E) (-1.8 + 1.1 ) N ) N
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34
A wire along the z-axis carries a current of 6.8 A in the +z direction.Find the magnitude and direction of the force exerted on a 6.1-cm long length of the wire by a uniform magnetic field with magnitude 0.36 T in the -x direction.
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35
A charged particle of mass 0.0020 kg is subjected to a 6.0 T magnetic field which acts at a right angle to its motion.If the particle moves in a circle of radius 0.20 m at a speed of 5.0 m/s,what is the magnitude of the charge on the particle?

A) 0.0083 C
B) 120 C
C) 0.00040 C
D) 2500 C
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36
In a mass spectrometer,a singly-charged particle (charge e)has a speed of 1.0 × 106 m/s and enters a uniform magnetic field of 0.20 T. The radius of the circular orbit of the particle is 0.020 m. What is the mass of this particle? (e = 1.60 × 10-19C)

A) 3.2 × 10-28 kg
B) 6.4 × 10-28 kg
C) 1.7 × 10-27 kg
D) 4.5 × 10-27 kg
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37
A wire carries a 4.0-A current along the +x-axis through a magnetic field <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m = (5.0 <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m
+ 7)0 <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m
)T) If the wire experiences a force of 30 N <strong>A wire carries a 4.0-A current along the +x-axis through a magnetic field = (5.0 + 7)0 )T) If the wire experiences a force of 30 N As a result,how long is the wire?</strong> A) 1.1 m B) 0.87 m C) 1.5 m D) 0.63 m
As a result,how long is the wire?

A) 1.1 m
B) 0.87 m
C) 1.5 m
D) 0.63 m
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