Question 1

Exhibit 10-1 The figure below shows a graph of angular velocity versus time for a woman bicycling around a circular track. Use this exhibit to answer the following question(s).
Refer to Exhibit 10-1.How many revolutions does she complete in the 16 minute period?

A)8
B)12
C)16
D)20
E)40

Accepted Answer

40 $\pi$&#10;

Question 2

A wheel rotates about a fixed axis with an initial angular velocity of 20 rad/s.During a 5.0-s interval the angular velocity increases to 40 rad/s.Assume that the angular acceleration was constant during the 5.0-s interval.How many revolutions does the wheel turn through during the 5.0-s interval?

A)20 rev
B)24 rev
C)32 rev
D)28 rev
E)39 rev

Accepted Answer

The total number of revolutions can be found using the formula for angular displacement $\theta = \omega_0 t + \frac{1}{2} \alpha t^2$, where $\omega_0$ is the initial angular velocity, $\alpha$ is the angular acceleration, and $t$ is the time. First, find the angular acceleration $\alpha = \frac{\Delta \omega}{\Delta t} = \frac{40 \text{ rad/s} - 20 \text{ rad/s}}{5.0 \text{ s}} = 4 \text{ rad/s}^2$. Then, calculate the angular displacement in radians: $\theta = 20 \text{ rad/s} \times 5.0 \text{ s} + \frac{1}{2} \times 4 \text{ rad/s}^2 \times (5.0 \text{ s})^2 = 100 + 50 = 150 \text{ rad}$. Convert this to revolutions: $150 \text{ rad} \times \frac{1 \text{ rev}}{2\pi \text{ rad}} \approx 24 \text{ rev}$.

Question 3

At t = 0,a wheel rotating about a fixed axis at a constant angular acceleration has an angular velocity of 2.0 rad/s.Two seconds later it has turned through 5.0 complete revolutions.What is the angular acceleration of this wheel?

A)17 rad/s²
B)14 rad/s²
C)20 rad/s²
D)23 rad/s²
E)13 rad/s²

Accepted Answer

14 rad/s<sup>2</sup>

Question 4

Exhibit 10-1 The figure below shows a graph of angular velocity versus time for a woman bicycling around a circular track. Use this exhibit to answer the following question(s).
Refer to Exhibit 10-1.How many revolutions does she complete in the 16 minute period?

A)8
B)12
C)16
D)20
E)40

Accepted Answer

The answer of Exhibit 10-1 The figure below shows a...

Question 5

Exhibit 10-1 The figure below shows a graph of angular velocity versus time for a woman bicycling around a circular track. Use this exhibit to answer the following question(s).
Refer to Exhibit 10-1.How many revolutions does she complete in the 16 minute period?

A)8
B)12
C)16
D)20
E)40

Accepted Answer

The answer of Exhibit 10-1 The figure below shows a...

Question 6

A wheel rotates about a fixed axis with an initial angular velocity of 20 rad/s.During a 5.0-s interval the angular velocity increases to 40 rad/s.Assume that the angular acceleration was constant during the 5.0-s interval.How many revolutions does the wheel turn through during the 5.0-s interval?

A)20 rev
B)24 rev
C)32 rev
D)28 rev
E)39 rev

Accepted Answer

The wheel turns through 75 radians. This can be calculated using the formula for angular displacement $\theta = \omega_0 t + \frac{1}{2} \alpha t^2$, where $\omega_0$ is the initial angular velocity, $t$ is the time, and $\alpha$ is the angular acceleration. First, find the angular acceleration using $\alpha = \frac{\Delta \omega}{\Delta t} = \frac{10 \, \text{rad/s} - 20 \, \text{rad/s}}{5.0 \, \text{s}} = -2 \, \text{rad/s}^2$. Then, calculate the angular displacement: $\theta = 20 \, \text{rad/s} \times 5.0 \, \text{s} + \frac{1}{2} \times (-2 \, \text{rad/s}^2) \times (5.0 \, \text{s})^2 = 100 \, \text{rad} - 25 \, \text{rad} = 75 \, \text{rad}$.

Question 7

A wheel rotating about a fixed axis with a constant angular acceleration of 2.0 rad/s² turns through 2.4 revolutions during a 2.0-s time interval.What is the angular velocity at the end of this time interval?

A)9.5 rad/s
B)9.7 rad/s
C)9.3 rad/s
D)9.1 rad/s
E)8.8 rad/s

Accepted Answer

The answer of A wheel rotating about a fixed axis...

Question 8

Exhibit 10-1 The figure below shows a graph of angular velocity versus time for a woman bicycling around a circular track. Use this exhibit to answer the following question(s).
Refer to Exhibit 10-1.How many revolutions does she complete in the 16 minute period?

A)8
B)12
C)16
D)20
E)40

Accepted Answer

The answer of Exhibit 10-1 The figure below shows a...

Question 9

A wheel rotating about a fixed axis has an angular position given by $\theta$ = 3.0 -2.0t³,where $\theta$ is measured in radians and t in seconds.What is the angular acceleration of the wheel at t = 2.0 s?

A)-1.0 rad/s²
B)-24 rad/s²
C)-2.0 rad/s²
D)-4.0 rad/s²
E)-3.5 rad/s²

Accepted Answer

The answer of A wheel rotating about a fixed axis...

Question 10

At t = 0,a wheel rotating about a fixed axis at a constant angular acceleration of -0.40 rad/s² has an angular velocity of 1.5 rad/s and an angular position of 2.3 rad.What is the angular position of the wheel at t = 2.0 s?

A)4.9 rad
B)4.7 rad
C)4.5 rad
D)4.3 rad
E)4.1 rad

Accepted Answer

The answer of At t = 0,a wheel rotating about...

Question 11

The turntable of a record player has an angular velocity of 8.0 rad/s when it is turned off.The turntable comes to rest 2.5 s after being turned off.Through how many radians does the turntable rotate after being turned off? Assume constant angular acceleration.

A)12 rad
B)8.0 rad
C)10 rad
D)16 rad
E)6.8 rad

Accepted Answer

The answer of The turntable of a record player has...

Question 12

The angular speed of the hour hand of a clock,in rad/s,is&#10;A) $\frac { 1 } { 7200 } \pi$ .&#10;B) $\frac { 1 } { 1800 } \pi$ .&#10;C) $\frac { 1 } { 30 } \pi$ .&#10;D)1 800 $\pi$.&#10;E)7 200 $\pi$.

Accepted Answer

The answer of The angular speed of the hour hand...

Question 13

The angular speed of the minute hand of a clock,in rad/s,is&#10;A) $\frac { 1 } { 1800 } \pi$ .&#10;B) $\frac { 1 } { 60 } \pi$ .&#10;C) $\frac { 1 } { 30 } \pi$ .&#10;D) $\pi$.&#10;E)120 $\pi$.

Accepted Answer

The answer of The angular speed of the minute hand...

Question 14

The angular speed of the hour hand of a clock,in rad/min,is&#10;A) $\frac { 1 } { 1800 } \pi$ .&#10;B) $\frac { 1 } { 60 } \pi$ .&#10;C) $\frac { 1 } { 30 } \pi$ .&#10;D) $\pi$.&#10;E)120 $\pi$.

Accepted Answer

The answer of The angular speed of the hour hand...

Question 15

The figure below shows a graph of angular velocity as a function of time for a car driving around a circular track.Through how many radians does the car travel in the first 10 minutes?  &#10;A)30&#10;B)50&#10;C)70&#10;D)90&#10;E)100

Accepted Answer

The answer of The figure below shows a graph of...

Question 16

The graphs below show angular velocity as a function of time.In which one is the magnitude of the angular acceleration constantly decreasing?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of The graphs below show angular velocity as...

Question 17

Exhibit 10-2 The figure below shows a graph of angular velocity versus time for a man bicycling around a circular track. Use this exhibit to answer the following question(s). -Refer to Exhibit 10-2.What is his average angular acceleration,in rad/s²,in the first 10 minutes? A)0 B) $- \frac { \pi } { 150 }$ C) $- \frac { \pi } { 75 }$ D) $+ \frac { \pi } { 75 }$ E) $+ \frac { \pi } { 150 }$

Accepted Answer

The answer of Exhibit 10-2 The figure below shows a...

Question 18

Exhibit 10-1 The figure below shows a graph of angular velocity versus time for a woman bicycling around a circular track. Use this exhibit to answer the following question(s).
Refer to Exhibit 10-1.How many revolutions does she complete in the 16 minute period?

A)8
B)12
C)16
D)20
E)40

Accepted Answer

The answer of Exhibit 10-1 The figure below shows a...

Question 19

A wheel starts from rest and rotates with a constant angular acceleration about a fixed axis.It completes the first revolution 6.0 s after it started.How long after it started will the wheel complete the second revolution?

A)9.9 s
B)7.8 s
C)8.5 s
D)9.2 s
E)6.4 s

Accepted Answer

The answer of A wheel starts from rest and rotates...

Question 20

A wheel rotating about a fixed axis has a constant angular acceleration of 4.0 rad/s².In a 4.0-s interval the wheel turns through an angle of 80 radians.Assuming the wheel started from rest,how long had it been in motion at the start of the 4.0-s interval?

A)2.5 s
B)4.0 s
C)3.5 s
D)3.0 s
E)4.5 s

Accepted Answer

The answer of A wheel rotating about a fixed axis...

Question 21

A thin uniform rod (length = 1.2 m,mass = 2.0 kg)is pivoted about a horizontal,frictionless pin through one end of the rod.(The moment of inertia of the rod about this axis is ML²/3. )The rod is released when it makes an angle of 37 $\degree$ with the horizontal.What is the angular acceleration of the rod at the instant it is released?

A)9.8 rad/s²
B)7.4 rad/s²
C)8.4 rad/s²
D)5.9 rad/s²
E)6.5 rad/s²

Accepted Answer

The answer of A thin uniform rod (length = 1.2...

Question 22

A horizontal disk with a radius of 10 cm rotates about a vertical axis through its center.The disk starts from rest at t = 0 and has a constant angular acceleration of 2.1 rad/s².At what value of t will the radial and tangential components of the linear acceleration of a point on the rim of the disk be equal in magnitude?

A)0.55 s
B)0.63 s
C)0.69 s
D)0.59 s
E)0.47 s

Accepted Answer

The answer of A horizontal disk with a radius of...

Question 23

The graph below shows a plot of angular acceleration in rad/s² versus time from t = 0 s to t = 8 s.The change in angular velocity,$\Delta$$ \omega $,during this 8-second period is A) $18 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CW. B) $18 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CCW. C) $23 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CW. D) $23 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CCW. E) $31 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CW.

Accepted Answer

The answer of The graph below shows a plot of...

Question 24

Exhibit 10-2 The figure below shows a graph of angular velocity versus time for a man bicycling around a circular track. Use this exhibit to answer the following question(s). -Refer to Exhibit 10-2.What is his average angular acceleration,in rad/s²,in the period from t = 6 min to t = 8 min? A)0 B) $- \frac { \pi } { 90 }$ C) $- \frac { \pi } { 30 }$ D) $+ \frac { \pi } { 30 }$ E) $+ \frac { \pi } { 90 }$

Accepted Answer

The answer of Exhibit 10-2 The figure below shows a...

Question 25

If M = 0.50 kg,L = 1.2 m,and the mass of each connecting rod shown is negligible,what is the moment of inertia about an axis perpendicular to the paper through the center of mass? Treat the mass as particles.

A)3.7 kg.m²
B)2.8 kg.m²
C)3.2 kg.m²
D)2.3 kg.m²
E)3.9 kg.m²

Accepted Answer

The answer of If M = 0.50 kg,L = 1.2...

Question 26

Four identical particles (mass of each = 0.40 kg)are placed at the vertices of a rectangle (2.0 m * 3.0 m)and held in those positions by four light rods which form the sides of the rectangle.What is the moment of inertia of this rigid body about an axis that passes through the mid-points of the longer sides and is parallel to the shorter sides?

A)2.7 kg.m²
B)3.6 kg.m²
C)3.1 kg.m²
D)4.1 kg.m²
E)1.6 kg.m²

Accepted Answer

The answer of Four identical particles (mass of each =...

Question 27

A wheel rotating about a fixed axis with a constant angular acceleration of 2.0 rad/s² starts from rest at t = 0.The wheel has a diameter of 20 cm.What is the magnitude of the total linear acceleration of a point on the outer edge of the wheel at t = 0.60 s?

A)0.24 m/s²
B)0.50 m/s²
C)0.14 m/s²
D)0.34 m/s²
E)0.20 m/s²

Accepted Answer

The answer of A wheel rotating about a fixed axis...

Question 28

A small sphere attached to a light rigid rod rotates about an axis perpendicular to and fixed to the other end of the rod.Relative to the positive direction of the axis of rotation,the angular positions of the sphere are positive,its angular velocity is positive,and its angular acceleration is negative.The sphere is

A)rotating clockwise and slowing down.
B)rotating counterclockwise and slowing down.
C)rotating clockwise and speeding up.
D)rotating counterclockwise and speeding up.
E)first rotating clockwise and then counterclockwise.

Accepted Answer

The answer of A small sphere attached to a light...

Question 29

Four identical particles (mass of each = 0.24 kg)are placed at the vertices of a rectangle (2.0 m *3.0 m)and held in those positions by four light rods which form the sides of the rectangle.What is the moment of inertia of this rigid body about an axis that passes through the center of mass of the body and is parallel to the shorter sides of the rectangle?

A)2.4 kg.m²
B)2.2 kg.m²
C)1.9 kg.m²
D)2.7 kg.m²
E)8.6 kg.m²

Accepted Answer

The answer of Four identical particles (mass of each =...

Question 30

A small sphere attached to a light rigid rod rotates about an axis perpendicular to and fixed to the other end of the rod.Relative to the positive direction of the axis of rotation,the angular positions of the sphere are positive,its angular velocity is positive,and its angular acceleration is negative.The sphere is

A)rotating clockwise and slowing down.
B)rotating counterclockwise and slowing down.
C)rotating clockwise and speeding up.
D)rotating counterclockwise and speeding up.
E)first rotating clockwise and then counterclockwise.

Accepted Answer

The answer of A small sphere attached to a light...

Question 31

The graph below shows a plot of angular acceleration in rad/s² versus time from t = 0 s to t = 8 s.The angular velocity at t = 0 s is $$\omega _ { 0 } = 5 \frac { \mathrm { rad } } { \mathrm { s } }$$ ,CCW.The angular velocity,$ \omega $,at t = 8 s is A) $18 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CW. B) $18 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CCW. C) $23 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CW. D) $23 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CCW. E) $43 \frac { \mathrm { rad } } { \mathrm { s } }$ ,CW.

Accepted Answer

The answer of The graph below shows a plot of...

Question 32

A small sphere attached to a light rigid rod rotates about an axis perpendicular to and fixed to the other end of the rod.Relative to the positive direction of the axis of rotation,the angular positions of the sphere are positive,its angular velocity is positive,and its angular acceleration is negative.The sphere is

A)rotating clockwise and slowing down.
B)rotating counterclockwise and slowing down.
C)rotating clockwise and speeding up.
D)rotating counterclockwise and speeding up.
E)first rotating clockwise and then counterclockwise.

Accepted Answer

The answer of A small sphere attached to a light...

Question 33

A disk (radius = 8.0 cm)that rotates about a fixed axis starts from rest and accelerates at a constant rate to an angular velocity of 4.0 rad/s in 2.0 s.What is the magnitude of the total linear acceleration of a point on the rim of the disk at the instant when the angular velocity of the disk is 1.5 rad/s?

A)24 cm/s²
B)16 cm/s²
C)18 cm/s²
D)34 cm/s²
E)44 cm/s²

Accepted Answer

The answer of A disk (radius = 8.0 cm)that rotates...

Question 34

The rigid object shown is rotated about an axis perpendicular to the paper and through point P.The total kinetic energy of the object as it rotates is equal to 1.4 J.If M = 1.3 kg and L = 0.50 m,what is the angular velocity of the object? Neglect the mass of the connecting rods and treat the masses as particles.

A)1.3 rad/s
B)1.5 rad/s
C)1.7 rad/s
D)1.2 rad/s
E)2.1 rad/s

Accepted Answer

The answer of The rigid object shown is rotated about...

Question 35

A rigid rod of length l rotates about an axis perpendicular to the rod,with one end of the rod fixed to the axis.Which of the following are equal at all points on the rod?
I. The angular position
II. The angular velocity
III. The angular acceleration
IV. The centripetal acceleration
V. The tangential acceleration

A)I and II
B)I,II,and III
C)I,II,III and IV
D)I,II,III,IV and V
E)I,II and IV.

Accepted Answer

The answer of A rigid rod of length l rotates...

Question 36

Two particles (m₁ = 0.20 kg,m₂ = 0.30 kg)are positioned at the ends of a 2.0-m long rod of negligible mass.What is the moment of inertia of this rigid body about an axis perpendicular to the rod and through the center of mass?

A)0.48 kg.m²
B)0.50 kg.m²
C)1.2 kg.m²
D)0.80 kg.m²
E)0.70 kg.m²

Accepted Answer

The answer of Two particles (m₁ = 0.20 kg,m₂ =...

Question 37

A wheel rotates about a fixed axis with a constant angular acceleration of 4.0 rad/s².The diameter of the wheel is 40 cm.What is the linear speed of a point on the rim of this wheel at an instant when that point has a total linear acceleration with a magnitude of 1.2 m/s²?

A)39 cm/s
B)42 cm/s
C)45 cm/s
D)35 cm/s
E)53 cm/s

Accepted Answer

The answer of A wheel rotates about a fixed axis...

Question 38

Exhibit 10-3 &#10;The graph below shows a plot of angular velocity in rad/s versus time in s from t = 0 s to t = 7 s.   Use this exhibit to answer the following question(s).&#10;&#10;-Refer to Exhibit 10-3.The angular position,$\theta$,at t = 0 s is 3.0 rad,clockwise.The angular position,$\theta$,at t = 7 s is&#10;A)27 rad,CW.&#10;B)27 rad,CCW.&#10;C)33 rad,CW.&#10;D)33 rad,CCW.&#10;E)36 rad,CCW.

Accepted Answer

The answer of Exhibit 10-3 &#10;The graph below shows a...

Question 39

Three particles,each of which has a mass of 80 g,are positioned at the vertices of an equilateral triangle with sides of length 60 cm.The particles are connected by rods of negligible mass.What is the moment of inertia of this rigid body about an axis that is parallel to one side of the triangle and passes through the respective midpoints of the other two sides?

A)0.018 kg.m²
B)0.020 kg.m²
C)0.016 kg.m²
D)0.022 kg.m²
E)0.032 kg.m²

Accepted Answer

The answer of Three particles,each of which has a mass...

Question 40

Exhibit 10-3 &#10;The graph below shows a plot of angular velocity in rad/s versus time in s from t = 0 s to t = 7 s.   Use this exhibit to answer the following question(s).&#10;&#10;-Refer to Exhibit 10-3.The change in angular position,$\Delta$$\theta$,during the 7-second period is&#10;A)21 rad,CW.&#10;B)21 rad,CCW.&#10;C)30 rad,CW.&#10;D)30 rad,CCW.&#10;E)39 rad,CCW.

Accepted Answer

The answer of Exhibit 10-3 &#10;The graph below shows a...

Question 41

Which of the following diagrams shows the greatest magnitude net torque with a zero net force? All the rods,of length 2r,rotate about an axis that is perpendicular to the rod and fixed in the center of the rod.All the forces are of magnitude F or 2F and all distances from the axis are r or r/2.

A)

<strong>Which of the following diagrams shows the greatest magnitude net torque with a zero net force? All the rods,of length 2r,rotate about an axis that is perpendicular to the rod and fixed in the center of the rod.All the forces are of magnitude F or 2F and all distances from the axis are r or r/2.</strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

The answer of Which of the following diagrams shows the...

Question 42

Two vectors lying in the xy plane are given by the equations $\overrightarrow { \mathbf { A } } = 5 \hat { \mathbf { i } } + 2 \hat { \mathbf { j } }$ and $\overrightarrow { \mathbf { B } } = 2 \hat { \mathbf { i } } - 3 \hat { \mathbf { j } }$ .The value of $\overrightarrow { \mathbf { A } } \times \overrightarrow { \mathbf { B } }$ is&#10;A)19  &#10;B)-11  &#10;C)-19  &#10;D)11  &#10;E)

Accepted Answer

The answer of Two vectors lying in the xy plane...

Question 43

A uniform rod (mass = 2.0 kg,length = 0.60 m)is free to rotate about a frictionless pivot at one end.The rod is released from rest in the horizontal position.What is the magnitude of the angular acceleration of the rod at the instant it is 60 $\degree$ below the horizontal?

A)15 rad/s²
B)12 rad/s²
C)18 rad/s²
D)29 rad/s²
E)23 rad/s²

Accepted Answer

The answer of A uniform rod (mass = 2.0 kg,length...

Question 44

A uniform sphere of radius R and mass M rotates freely about a horizontal axis that is tangent to an equatorial plane of the sphere,as shown below.The moment of inertia of the sphere about this axis is  &#10;A) $\frac { 2 } { 5 } M R ^ { 2 }$ .&#10;B) $\frac { 2 } { 3 } M R ^ { 2 }$ .&#10;C) $\frac { 5 } { 7 } M R ^ { 2 }$ .&#10;D) $\frac { 7 } { 5 } M R ^ { 2 }$ .&#10;E) $\frac { 3 } { 2 } M R ^ { 2 }$ .

Accepted Answer

The answer of A uniform sphere of radius R and...

Question 45

A wheel (radius = 12 cm)is mounted on a frictionless,horizontal axle that is perpendicular to the wheel and passes through the center of mass of the wheel.A light cord wrapped around the wheel supports a 0.40-kg object.If released from rest with the string taut,the object is observed to fall with a downward acceleration of 3.0 m/s².What is the moment of inertia (of the wheel)about the given axle?

A)0.023 kg.m²
B)0.013 kg.m²
C)0.020 kg.m²
D)0.016 kg.m²
E)0.035 kg.m²

Accepted Answer

The answer of A wheel (radius = 12 cm)is mounted...

Question 46

When the sum of the external forces and the sum of the external torques on a body are both zero,we can conclude that&#10;A)the body is moving at constant velocity but is not rotating.&#10;B)the body is rotating at constant angular velocity but has no linear velocity.&#10;C)the body has neither linear nor angular velocity.&#10;D)the body may have constant linear or angular velocity,but not both simultaneously.&#10;E)the body may have constant linear or constant angular velocity,or both simultaneously.

Accepted Answer

The answer of When the sum of the external forces...

Question 47

A mass (M₁ = 5.0 kg)is connected by a light cord to a mass (M₂ = 4.0 kg)which slides on a smooth surface,as shown in the figure.The pulley (radius = 0.20 m)rotates about a frictionless axle.The acceleration of M₂ is 3.5 m/s².What is the moment of inertia of the pulley?

A)0.29 kg.m²
B)0.42 kg.m²
C)0.20 kg.m²
D)0.62 kg.m²
E)0.60 kg.m²

Accepted Answer

The answer of A mass (M₁ = 5.0 kg)is connected...

Question 48

A wheel (radius = 0.20 m)starts from rest and rotates with a constant angular acceleration of 2.0 rad/s².At the instant when the angular velocity is equal to 1.2 rad/s,what is the magnitude of the total linear acceleration of a point on the rim of the wheel?

A)0.40 m/s²
B)0.29 m/s²
C)0.69 m/s²
D)0.49 m/s²
E)0.35 m/s²

Accepted Answer

The answer of A wheel (radius = 0.20 m)starts from...

Question 49

A mass m = 4.0 kg is connected,as shown,by a light cord to a mass M = 6.0 kg,which slides on a smooth horizontal surface.The pulley rotates about a frictionless axle and has a radius R = 0.12 m and a moment of inertia I = 0.090 kg.m².The cord does not slip on the pulley.What is the magnitude of the acceleration of m? A)2.4 m/s² B)2.8 m/s² C)3.2 m/s² D)4.2 m/s² E)1.7 m/s²

Accepted Answer

The answer of A mass m = 4.0 kg is...

Question 50

A cylinder rotating about its axis with a constant angular acceleration of 1.6 rad/s² starts from rest at t = 0.At the instant when it has turned through 0.40 radian,what is the magnitude of the total linear acceleration of a point on the rim (radius = 13 cm)? A)0.31 m/s² B)0.27 m/s² C)0.35 m/s² D)0.39 m/s² E)0.45 m/s²

Accepted Answer

The answer of A cylinder rotating about its axis with...

Question 51

Particles (mass of each = 0.40 kg)are placed at the 60-cm and 100-cm marks of a meter stick of negligible mass.This rigid body is free to rotate about a frictionless pivot at the 0-cm end.The body is released from rest in the horizontal position.What is the magnitude of the initial linear acceleration of the end of the body opposite the pivot? A)15 m/s² B)9.8 m/s² C)5.8 m/s² D)12 m/s² E)4.7 m/s²

Accepted Answer

The answer of Particles (mass of each = 0.40 kg)are...

Question 52

A wheel (radius = 0.20 m)is mounted on a frictionless,horizontal axis.A light cord wrapped around the wheel supports a 0.50-kg object,as shown in the figure.When released from rest the object falls with a downward acceleration of 5.0 m/s².What is the moment of inertia of the wheel? A)0.023 kg.m² B)0.027 kg.m² C)0.016 kg.m² D)0.019 kgF.m² E)0.032 kg.m²

Accepted Answer

The answer of A wheel (radius = 0.20 m)is mounted...

Question 53

The rigid body shown rotates about an axis through its center of mass and perpendicular to the paper.If M = 2.0 kg and L = 80 cm,what is the kinetic energy of this object when its angular speed about this axis is equal to 5.0 rad/s? Neglect the mass of the connecting rod and treat the masses as particles.  &#10;A)18 J&#10;B)15 J&#10;C)12 J&#10;D)23 J&#10;E)26 J

Accepted Answer

The answer of The rigid body shown rotates about an...

Question 54

Four identical particles (mass of each = 0.40 kg)are placed at the vertices of a rectangle (2.0 m * 3.0 m)and held in those positions by four light rods which form the sides of the rectangle.What is the moment of inertia of this rigid body about an axis that passes through the mid-points of the longer sides and is parallel to the shorter sides?

A)2.7 kg.m²
B)3.6 kg.m²
C)3.1 kg.m²
D)4.1 kg.m²
E)1.6 kg.m²

Accepted Answer

The answer of Four identical particles (mass of each =...

Question 55

The rigid body shown is rotated about an axis perpendicular to the paper and through the point P.If M = 0.40 kg,a = 30 cm,and b = 50 cm,how much work is required to take the body from rest to an angular speed of 5.0 rad/s? Neglect the mass of the connecting rods and treat the masses as particles.  &#10;A)2.9 J&#10;B)2.6 J&#10;C)3.1 J&#10;D)3.4 J&#10;E)1.6 J

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The answer of The rigid body shown is rotated about...

Question 56

Two vectors lying in the xz plane are given by the equations $\overrightarrow { \mathbf { A } } = 2 \tilde { \mathbf { i } } + 3 \tilde { \mathbf { k } }$ and $\overrightarrow { \mathbf { B } } = - \tilde { \mathbf { i } } + 2 \tilde { \mathbf { k } }$ .The value of $$\overrightarrow { \mathbf { A } } \times \overrightarrow { \mathbf { B } }$$ is&#10;A)  &#10;B) - &#10;C)7  &#10;D)- &#10;E)

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The answer of Two vectors lying in the xz plane...

Question 57

A uniform cylinder of radius R,mass M,and length L rotates freely about a horizontal axis parallel and tangent to the cylinder,as shown below.The moment of inertia of the cylinder about this axis is A) $\frac { 1 } { 2 } M R ^ { 2 }$ . B) $\frac { 2 } { 3 } M R ^ { 2 }$ . C)MR². D) $\frac { 3 } { 2 } M R ^ { 2 }$ . E) $\frac { 7 } { 5 } M R ^ { 2 }$ .

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The answer of A uniform cylinder of radius R,mass M,and...

Question 58

Particles (mass of each = 0.20 kg)are placed at the 40-cm and 100-cm marks of a meter stick of negligible mass.This rigid body is free to rotate about a frictionless pivot at the 0-cm end.The body is released from rest in the horizontal position.What is the initial angular acceleration of the body? A)12 rad/s² B)5.9 rad/s² C)8.4 rad/s² D)5.4 rad/s² E)17 rad/s²

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The answer of Particles (mass of each = 0.20 kg)are...

Question 59

A wheel (radius = 0.25 m)is mounted on a frictionless,horizontal axis.The moment of inertia of the wheel about the axis is 0.040 kg.m².A light cord wrapped around the wheel supports a 0.50-kg object as shown in the figure.The object is released from rest.What is the magnitude of the acceleration of the 0.50-kg object? A)3.0 m/s² B)3.4 m/s² C)4.3 m/s² D)3.8 m/s² E)2.7 m/s²

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The answer of A wheel (radius = 0.25 m)is mounted...

Question 60

A particle located at the position vector $\hat { \mathbf { r } } = ( \tilde { \mathbf { i } } + \hat { \mathbf { j } } )$ m has a force $\overrightarrow { \mathbf { F } } = ( 2 \hat { \mathbf { i } } + 3 \tilde { \mathbf { j } } )$ N acting on it.The torque about the origin is&#10;A)(1   )N.m&#10;B)(5   )N.m&#10;C)(-1   )N.m&#10;D)(-5   )N.m&#10;E)(2 $\hat { \mathbf { i } }$ + 3 $\hat { \mathbf {j} }$ )N.m

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The answer of A particle located at the position vector...

Question 61

Two blocks,m₁ = 1.0 kg and m₂ = 2.0 kg,are connected by a light string as shown in the figure.If the radius of the pulley is 1.0 m and its moment of inertia is 5.0 kg.m²,the acceleration of the system is A)(1/6)g B)(3/8)g C)(1/8)g D)(1/2)g E)(5/8)g

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The answer of Two blocks,m₁ = 1.0 kg and m₂...

Question 62

Identical particles are placed at the 50-cm and 80-cm marks on a meter stick of negligible mass.This rigid body is then mounted so as to rotate freely about a pivot at the 0-cm mark on the meter stick.If this body is released from rest in a horizontal position,what is the angular speed of the meter stick as it swings through its lowest position?&#10;A)4.2 rad/s&#10;B)5.4 rad/s&#10;C)4.6 rad/s&#10;D)5.0 rad/s&#10;E)1.7 rad/s

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The answer of Identical particles are placed at the 50-cm...

Question 63

A uniform rod (length = 2.0 m)is mounted to rotate freely about a horizontal axis that is perpendicular to the rod and that passes through the rod at a point 0.50 m from one end of the rod.If the rod is released from rest in a horizontal position,what is the angular speed of the rod as it rotates through its lowest position?&#10;A)3.5 rad/s&#10;B)3.8 rad/s&#10;C)4.1 rad/s&#10;D)2.0 rad/s&#10;E)5.6 rad/s

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The answer of A uniform rod (length = 2.0 m)is...

Question 64

A uniform rod is 3.0 m long.The rod is pivoted about a horizontal,frictionless pin through one end.The rod is released from rest at an angle of 27 $\degree$ above the horizontal.What is the angular speed of the rod as it passes through the horizontal position?&#10;A)3.0 rad/s&#10;B)2.8 rad/s&#10;C)2.1 rad/s&#10;D)2.5 rad/s&#10;E)3.4 rad/s

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The answer of A uniform rod is 3.0 m long.The...

Deck 10: Rotational Motion