Topics

استكشف كل المواضيع

جامعات

uni logo
University of North Carolina at Chapel Hill
uni logo
University of Notre Dame
uni logo
Clemson University
استكشف كل الجامعات

الأساتذة

الجودة العامة
-/5
c c
الجودة العامة
-/5
Billt Camp
الجودة العامة
-/5
mathio g
استكشف كل الأساتذة
اضافة ملحق المتصفح
بدء التجربة المجانية
تبي مساعدة؟ تواصل معنا
title
حلول الكتب الأكاديمية
تم التحقق من الحلول خطوة بخطوة بواسطة خبراء
title
مساعدة في الواجبات على مدار الساعة
أكمل المهام بمساعدة مجتمعنا
title
بطاقات تفاعلية
حفز ذاكرتك البصرية واذهب بثقة الى الاختبار
title
مساعدة في الملفات
حمّل موادك الدراسية وبنساعدك في حل جميع الأسئلة.
title
سفراء كويز بلس
انضم كسفير وخذ عمولة مميزة تصل إلى 20%، بالإضافة لجوائز نقدية أسبوعية وشهرية
title
مقرراتي
اضف مقرراتك للحصول على مواد دراسية مخصصة تلبي احتياجاتك
اكتشف كل خدماتنا
اضافة ملحق المتصفح
بدء التجربة المجانية
تبي مساعدة؟ تواصل معنا
back arrowfull exam logo
English
search
ai logoتكلم مع الذكاء الاصطناعي
خدماتناarrow
حلول الكتب الأكاديمية icon
حلول الكتب الأكاديمية
مساعدة في الواجبات على مدار الساعة icon
مساعدة في الواجبات على مدار الساعة
بطاقات تفاعلية icon
بطاقات تفاعلية
مساعدة في الملفات icon
مساعدة في الملفات
سفراء كويز بلس icon
سفراء كويز بلس
مقرراتي icon
مقرراتي
حمل التطبيق icon
حمل التطبيق
اكتشف كل خدماتنا
Discoverarrow

Topics

اكتشف كل خدماتنا

Universities

uni logo
University of North Carolina at Chapel Hill
uni logo
University of Notre Dame
uni logo
Clemson University
Explore all Universities

professors

/5
c c
/5
Billt Camp
/5
mathio g
Explore all Professors
استكشف كل المواضيع
Discover more topics
التعليم المنزلياسألنا

Deck 15: Oscillations

ملء الشاشة (f)
exit full mode
سؤال
A particle is in simple harmonic motion with period T.At time t = 0 it is at the equilibrium point.At the times listed below it is at various points in its cycle.Which of them is farthest away from the equilibrium point?

A)0.5T
B)0.7T
C)T
D)1.4T
E)1.5T
استخدم زر المسافة أو
up arrow
down arrow
لقلب البطاقة.
سؤال
An object is undergoing simple harmonic motion.Throughout a complete cycle it:

A)has constant speed
B)has varying amplitude
C)has varying period
D)has varying acceleration
E)has varying mass
سؤال
An object attached to one end of a spring makes 20 vibrations in 10 seconds.Its frequency is:

A)2 Hz
B)10 s
C)0.05 Hz
D)2 s
E)0.50 s
سؤال
It is impossible for two particles, each executing simple harmonic motion, to remain in phase with each other if they have different:

A)masses
B)periods
C)amplitudes
D)spring constants
E)kinetic energies
سؤال
Two identical undamped oscillators have the same amplitude of oscillation only if:

A)they are started with the same displacement x0
B)they are started with the same velocity v0
C)they are started with the same phase
D)they are started so the combination <strong>Two identical undamped oscillators have the same amplitude of oscillation only if:</strong> A)they are started with the same displacement x<sub>0</sub> B)they are started with the same velocity v<sub>0</sub> C)they are started with the same phase D)they are started so the combination is the same E)they are started so the combination is the same <div style=padding-top: 35px> is the same
E)they are started so the combination <strong>Two identical undamped oscillators have the same amplitude of oscillation only if:</strong> A)they are started with the same displacement x<sub>0</sub> B)they are started with the same velocity v<sub>0</sub> C)they are started with the same phase D)they are started so the combination is the same E)they are started so the combination is the same <div style=padding-top: 35px> is the same
سؤال
An object attached to one end of a spring makes 20 vibrations in 10 seconds.Its angular frequency is:

A)0.79 rad/s
B)1.57 rad/s
C)2.0 rad/s
D)6.3 rad/s
E)12.6 rad/s
سؤال
The amplitude of any oscillator will be doubled by:

A)doubling only the initial displacement
B)doubling only the initial speed
C)doubling the initial displacement and halving the initial speed
D)doubling the initial speed and halving the initial displacement
E)doubling both the initial displacement and the initial speed
سؤال
A particle moves back and forth along the x axis from x = -xm to x = +xm, in simple harmonic motion with period T.At time t = 0 it is at x = +xm.When t = 0.75T:

A)it is at x = 0 and is traveling toward x = +xm
B)it is at x = 0 and is traveling toward x = -xm
C)it is at x = +xm and is at rest
D)it is between x = 0 and x = +xm and is traveling toward x = -xm
E)it is between x = 0 and x = -xm and is traveling toward x = -xm
سؤال
A particle is in simple harmonic motion with period T.At time t=0 it is halfway between the equilibrium point and an end point of its motion, travelling toward the end point.The next time it is at the same place is:

A)t = T
B)t = T/2
C)t = T/3
D)t = T/4
E)none of the above
سؤال
When a body executes simple harmonic motion, its acceleration at the ends of its path must be:

A)zero
B)less than g
C)more than g
D)suddenly changing in sign
E)none of these
سؤال
An object attached to one end of a spring makes 20 complete vibrations in 10s.Its period is:

A)2 Hz
B)10 s
C)0.5 Hz
D)2 s
E)0.50 s
سؤال
The amplitude and phase constant of an oscillator are determined by:

A)the frequency
B)the angular frequency
C)the initial displacement alone
D)the initial velocity alone
E)both the initial displacement and velocity
سؤال
Frequency f and angular frequency <strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f = <div style=padding-top: 35px> are related by

A)f =<strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f = <div style=padding-top: 35px>
B)f = 211ef0079_ce1c_a043_bc85_1b516becc8df_TB6585_11
C)f = <strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f = <div style=padding-top: 35px>
D)f =<strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f = <div style=padding-top: 35px>
E)f = <strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f = <div style=padding-top: 35px>
سؤال
This plot shows a mass oscillating as x = xm cos (ωt + φ).What are xm and φ? <strong>This plot shows a mass oscillating as x = x<sub>m</sub> cos (ωt + φ).What are x<sub>m</sub> and φ? </strong> A)1 m, 0° B)2 m, 0° C)2 m, 90° D)4 m, 0° E)4 m, 90° <div style=padding-top: 35px>

A)1 m, 0°
B)2 m, 0°
C)2 m, 90°
D)4 m, 0°
E)4 m, 90°
سؤال
A particle oscillating in simple harmonic motion is:

A)never in equilibrium because it is in motion
B)never in equilibrium because there is a force
C)in equilibrium at the ends of its path because its velocity is zero there
D)in equilibrium at the center of its path because the acceleration is zero there
E)in equilibrium at the ends of its path because the acceleration is zero there
سؤال
A weight suspended from an ideal spring oscillates up and down with a period T.If the amplitude of the oscillation is doubled, the period will be:

A)T
B)1.5 T
C)2T
D)T/2
E)4T
سؤال
An oscillatory motion must be simple harmonic if:

A)the amplitude is small
B)the potential energy is equal to the kinetic energy
C)the motion is along the arc of a circle
D)the acceleration varies sinusoidally with time
E)the derivative, dU/dx, of the potential energy is negative
سؤال
A block attached to a spring oscillates in simple harmonic motion along the x axis.The limits of its motion are x = 10 cm and x = 50 cm and it goes from one of these extremes to the other in 0.25 s.Its amplitude and frequency are:

A)40 cm, 2 Hz
B)20 cm, 4 Hz
C)40 cm, 4 Hz
D)25 cm, 4 Hz
E)20 cm, 2 Hz
سؤال
A particle moves in simple harmonic motion according to x = 2cos(50t), where x is in meters and t is in seconds.Its maximum velocity is:

A)100 sin(50t)m/s
B)100 cos(50t)m/s
C)100 m/s
D)200 m/s
E)none of these
سؤال
In simple harmonic motion, the displacement is maximum when the:

A)acceleration is zero
B)velocity is maximum
C)velocity is zero
D)kinetic energy is maximum
E)momentum is maximum
سؤال
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the oscillation is started by elongating the spring 0.15 m and giving the block a speed of 3.0 m/s, then the maximum speed of the block is:

A)0.13 m/s
B)0.18 m/s
C)3.7 m/s
D)5.2 m/s
E)13 m/s
سؤال
In simple harmonic motion, the magnitude of the acceleration is:

A)constant
B)proportional to the displacement
C)inversely proportional to the displacement
D)greatest when the velocity is greatest
E)never greater than g
سؤال
The displacement of an object oscillating on a spring is given by x(t)= xmcos( <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the initial displacement is zero and the initial velocity is in the negative x direction, then the phase constant is:</strong> A)0 radians B) \pi /2 radians C) \pi radians D)3 \pi /2 radians E)2 \pi radians <div style=padding-top: 35px> + <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the initial displacement is zero and the initial velocity is in the negative x direction, then the phase constant is:</strong> A)0 radians B) \pi /2 radians C) \pi radians D)3 \pi /2 radians E)2 \pi radians <div style=padding-top: 35px> ).If the initial displacement is zero and the initial velocity is in the negative x direction, then the phase constant 11ef007a_3990_6877_bc85_811eff4e9b0d_TB6585_11 is:

A)"0 radians"
B)" π\pi /2 radians"
C)" π\pi radians"
D)"3 π\pi /2 radians"
E)"2 π\pi radians"
سؤال
A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: <strong>A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: </strong> A)2T B) C) D)T E)T/2 <div style=padding-top: 35px>

A)2T
B) <strong>A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: </strong> A)2T B) C) D)T E)T/2 <div style=padding-top: 35px>
C) <strong>A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: </strong> A)2T B) C) D)T E)T/2 <div style=padding-top: 35px>
D)T
E)T/2
سؤال
In simple harmonic motion:

A)the acceleration is greatest at the maximum displacement
B)the velocity is greatest at the maximum displacement
C)the period depends on the amplitude
D)the acceleration is constant
E)the acceleration is greatest at zero displacement
سؤال
A 1.2-kg mass is oscillating without friction on a spring whose spring constant is 3400 N/m.When the mass's displacement is 7.2 cm, what is its acceleration?

A)−3.8 m/s2
B)−200 m/s2
C)−240 m/s2
D)−2.0 x 104 m/s2
E)cannot be calculated without more information
سؤال
The displacement of an object oscillating on a spring is given by x(t)= xmcos( <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) <div style=padding-top: 35px> + <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) <div style=padding-top: 35px> ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) <div style=padding-top: 35px> is between:

A)"0 and π\pi /2 radians"
B)" π\pi /2 and π\pi radians"
C)" π\pi and 3 π\pi /2 radians"
D)"3 π\pi /2 and 2 π\pi radians"
E)"none of the above ( <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) <div style=padding-top: 35px> is exactly 0, π\pi /2, π\pi , or 3 π\pi /2 radians)"
سؤال
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the oscillation is started by elongating the spring 0.15 m and giving the block a speed of 3.0 m/s, then the amplitude of the oscillation is:

A)0.13 m
B)0.18 m
C)3.7 m
D)5.2 m
E)13 m
سؤال
A certain spring elongates 9 mm when it is suspended vertically and a block of mass M is hung on it.The angular frequency of this mass-spring system:

A)is 0.088 rad/s
B)is 33 rad/s
C)is 200 rad/s
D)is 1140 rad/s
E)cannot be computed unless the value of M is given
سؤال
The acceleration of a body executing simple harmonic motion leads the velocity by what phase?

A)"0 rad
B)" π\pi /8 rad"
C)" π\pi /4 rad"
D)" π\pi /2 rad"
E)" π\pi rad"
سؤال
In simple harmonic motion, the restoring force must be proportional to the:

A)amplitude
B)frequency
C)velocity
D)displacement
E)displacement squared
سؤال
Let U be the potential energy (with the zero at zero displacement)and K be the kinetic energy of a simple harmonic oscillator.Uavg and Kavg are the average values over a cycle.Then:

A)Kavg > Uavg
B)Kavg < Uavg
C)Kavg = Uavg
D)K = 0 when U = 0
E)K + U = 0
سؤال
A 3-kg block, attached to a spring, executes simple harmonic motion according to x = 2cos(50t)where x is in meters and t is in seconds.The spring constant of the spring is:

A)1 N/m
B)100 N/m
C)150 N/m
D)7500 N/m
E)none of these
سؤال
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the system has an energy of 6.0 J, then the maximum speed of the block is:

A)0.06 m/s
B)0.17 m/s
C)0.24 m/s
D)4.9 m/s
E)6.9 m/s
سؤال
An object of mass m, oscillating on the end of a spring with spring constant k has amplitude A.Its maximum speed is:

A) <strong>An object of mass m, oscillating on the end of a spring with spring constant k has amplitude A.Its maximum speed is:</strong> A) B)A<sup>2</sup>k/m C) D)Am/k E)A<sup>2</sup>m/k <div style=padding-top: 35px>
B)A2k/m
C) <strong>An object of mass m, oscillating on the end of a spring with spring constant k has amplitude A.Its maximum speed is:</strong> A) B)A<sup>2</sup>k/m C) D)Am/k E)A<sup>2</sup>m/k <div style=padding-top: 35px>
D)Am/k
E)A2m/k
سؤال
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.At one point in its motion its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When it is at x = xm, the kinetic and potential energies are:

A)K = 5 J and U = 3 J
B)K = 5 J and U = -3 J
C)K = 8 J and U = 0 J
D)K = 0 J and U = 8 J
E)K = 0 J and U = -8 J
سؤال
In simple harmonic motion, the magnitude of the acceleration is greatest when:

A)the displacement is zero
B)the displacement is maximum
C)the speed is maximum
D)the force is zero
E)the speed is between zero and its maximum
سؤال
A 0.20-kg object mass attached to a spring whose spring constant is 500 N/m executes simple harmonic motion.If its maximum speed is 5.0 m/s, the amplitude of its oscillation is:

A)0.0020 m
B)0.10 m
C)0.20 m
D)25 m
E)250 m
سؤال
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the system has an energy of 6.0 J, then the amplitude of the oscillation is:

A)0.06 m
B)0.17 m
C)0.24 m
D)4.9 m
E)6.9 m
سؤال
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When it is at x = -1/2 xm, the kinetic and potential energies are:

A)K = 6 J and U = 2 J
B)K = 6 J and U = -2 J
C)K = 8 J and U = 0 J
D)K = 0 J and U = 8 J
E)K = 0 J and U = -8 J
سؤال
A simple pendulum has length L and period T.As it passes through its equilibrium position, the string is suddenly clamped at its mid-point.The period then becomes:

A)2T
B)T
C)T/2
D)T/4
E)none of the above
سؤال
A disk whose rotational inertia is 450 kg∙m2 hangs from a wire whose torsion constant is 2300 N∙m/rad.What is the angular frequency of its torsional oscillations?

A)0.20 rad/s
B)0.44 rad/s
C)1.0 rad/s
D)2.3 rad/s
E)5.1 rad/s
سؤال
A simple pendulum consists of a small ball tied to a string and set in oscillation.As the pendulum swings the tension in the string is:

A)constant
B)a sinusoidal function of time
C)the square of a sinusoidal function of time
D)the reciprocal of a sinusoidal function of time
E)none of the above
سؤال
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When it is at x = -1/2 xm, its total energy is:

A)0 J
B)3 J
C)4 J
D)5 J
E)8 J
سؤال
An angular simple harmonic oscillator:

A)oscillates at an angle to the x axis
B)oscillates along the y axis
C)involves an angular displacement and a restoring torque
D)involves an angular displacement and a restoring force
E)involves a linear displacement and a restoring torque
سؤال
Which of the following is the difference between a simple pendulum and a physical pendulum?

A)The physical pendulum does not rotate around its center of mass.
B)The physical pendulum does not depend on the acceleration of gravity.
C)The physical pendulum has an extended mass.
D)The simple pendulum has a small amplitude.
E)The physical pendulum rotates around its center of mass.
سؤال
An angular simple harmonic oscillator is displaced 5.2 x 10-2 rad from its equilibrium position.If the torsion constant is 1200 N∙m/rad, what is the torque?

A)12 N∙m
B)23 N∙m
C)43 N∙m
D)52 N∙m
E)62 N∙m
سؤال
A disk whose rotational inertia is 450 kg∙m2 hangs from a wire whose torsion constant is 2300 N∙m/rad.When its angular displacement is −0.23 rad, what is its angular acceleration?

A)1.0 x 10-2 rad/s2
B)4.5 x 10-2 rad/s2
C)0.23 rad/s2
D)0.52 rad/s2
E)1.2 rad/s2
سؤال
A mass-spring system is oscillating with amplitude A.The kinetic energy will equal the potential energy only when the displacement is

A)"0"
B)" <strong>A mass-spring system is oscillating with amplitude A.The kinetic energy will equal the potential energy only when the displacement is</strong> A)0 B) A/4 C) D) A/2 E)anywhere between -A and +A <div style=padding-top: 35px> A/4"
C) "<strong>A mass-spring system is oscillating with amplitude A.The kinetic energy will equal the potential energy only when the displacement is</strong> A)0 B) A/4 C) D) A/2 E)anywhere between -A and +A <div style=padding-top: 35px> "
D)" 11ef007a_dba9_c0cc_bc85_310470f80211_TB6585_11 A/2"
E)"anywhere between -A and +A"
سؤال
A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:

A) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its kinetic energy is 8 J, it is at:

A)x = 0
B)x = x1
C)x = xm/2
D)x = xm/ <strong>A particle is in simple harmonic motion along the x axis.The amplitude of the motion is x<sub>m</sub>.When it is at x = x<sub>1</sub>, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its kinetic energy is 8 J, it is at:</strong> A)x = 0 B)x = x<sub>1</sub> C)x = x<sub>m</sub>/2 D)x = x<sub>m</sub>/ E)x = x<sub>m</sub> <div style=padding-top: 35px>
E)x = xm
سؤال
The amplitude of oscillation of a simple pendulum is increased from 1 °\degree to 4 °\degree .Its maximum acceleration changes by a factor of:

A)1/4
B)1/2
C)2
D)4
E)16
سؤال
Three physical pendulums, with masses m1, m2 = 2m1, and m3 = 3m1, have the same shape and size and are suspended at the same point.Rank them according to their periods, from shortest to longest.

A)1, 2, 3
B)3, 2, 1
C)2, 3, 1
D)2, 1, 3
E)All three are the same
سؤال
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its potential energy is 8 J, it is at:

A)x = 0
B)x = x1
C)x = xm/2
D)x = xm/ <strong>A particle is in simple harmonic motion along the x axis.The amplitude of the motion is x<sub>m</sub>.When it is at x = x<sub>1</sub>, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its potential energy is 8 J, it is at:</strong> A)x = 0 B)x = x<sub>1</sub> C)x = x<sub>m</sub>/2 D)x = x<sub>m</sub>/ E)x = x<sub>m</sub> <div style=padding-top: 35px>
E)x = xm
سؤال
If the length of a simple pendulum is doubled, its period will:

A)halve
B)increase by a factor of <strong>If the length of a simple pendulum is doubled, its period will:</strong> A)halve B)increase by a factor of C)decrease by a factor of D)double E)remain the same <div style=padding-top: 35px>
C)decrease by a factor of <strong>If the length of a simple pendulum is doubled, its period will:</strong> A)halve B)increase by a factor of C)decrease by a factor of D)double E)remain the same <div style=padding-top: 35px>
D)double
E)remain the same
سؤال
Which of the following is NOT required for a simple pendulum undergoing simple harmonic oscillation?

A)a point mass
B)a massless string
C)a small amplitude
D)gravitational force
E)a large spring constant
سؤال
An object on the end of a spring is set into oscillation by giving it an initial velocity while it is at its equilibrium position.In the first trial the initial velocity is v0 and in the second it is 4v0.In the second trial:

A)the amplitude is half as great and the maximum acceleration is twice as great
B)the amplitude is twice as great and the maximum acceleration is half as great
C)both the amplitude and the maximum acceleration are twice as great
D)both the amplitude and the maximum acceleration are four times as great
E)the amplitude is four times as great and the maximum acceleration is twice as great
سؤال
A block attached to a spring undergoes simple harmonic motion on a horizontal frictionless surface.Its total energy is 50 J.When the displacement is half the amplitude, the kinetic energy is:

A)0 J
B)12.5 J
C)25 J
D)37.5 J
E)50 J
سؤال
Five hoops are each pivoted at a point on the rim and allowed to swing as physical pendulums.The masses and radii are <strong>Five hoops are each pivoted at a point on the rim and allowed to swing as physical pendulums.The masses and radii are Order the hoops according to the periods of their motions, smallest to largest.</strong> A)1, 2, 3, 4, 5 B)5, 4, 3, 2, 1 C)1, 2, 3, 5, 4 D)1, 2, 5, 4, 3 E)5, 4, 1, 2, 3 <div style=padding-top: 35px> Order the hoops according to the periods of their motions, smallest to largest.

A)1, 2, 3, 4, 5
B)5, 4, 3, 2, 1
C)1, 2, 3, 5, 4
D)1, 2, 5, 4, 3
E)5, 4, 1, 2, 3
سؤال
A simple pendulum of length L and mass M has frequency f.To increase its frequency to 2f:

A)increase its length to 4L
B)increase its length to 2L
C)decrease its length to L/2
D)decrease its length to L/4
E)decrease its mass to < M/4
سؤال
A block on a spring is subjected to an applied sinusoidal force AND to a damping force that is proportional to its velocity.The energy dissipated by damping is supplied by:

A)the potential energy of the spring
B)the kinetic energy of the mass
C)gravity
D)friction
E)the applied force
سؤال
The period of a simple pendulum is 1 s on Earth.When brought to a planet where g is one-tenth that on Earth, its period becomes:

A)1 s
B) <strong>The period of a simple pendulum is 1 s on Earth.When brought to a planet where g is one-tenth that on Earth, its period becomes:</strong> A)1 s B) s C)1/10 s D) s E)10 s <div style=padding-top: 35px> s
C)1/10 s
D) <strong>The period of a simple pendulum is 1 s on Earth.When brought to a planet where g is one-tenth that on Earth, its period becomes:</strong> A)1 s B) s C)1/10 s D) s E)10 s <div style=padding-top: 35px> s
E)10 s
سؤال
Five particles undergo damped harmonic motion.Values for the spring constant k, the damping constant b, and the mass m are given below.Which leads to the smallest rate of loss of mechanical energy?

A)k = 100 N/m, m = 50 g, b = 8 g∙m/s
B)k = 150 N/m, m = 50 g, b = 5 g∙m/s
C)k = 150 N/m, m = 10 g, b = 8 g∙m/s
D)k = 200 N/m, m = 8 g, b = 6 g∙m/s
E)k = 100 N/m, m = 2 g, b = 4 g∙m/s
سؤال
The rotational inertia of a uniform thin rod about its end is ML2/3, where M is the mass and L is the length.Such a rod is hung vertically from one end and set into small amplitude oscillation.If L = 1.0 m this rod will have the same period as a simple pendulum of length:

A)33 cm
B)50 cm
C)67 cm
D)100 cm
E)150 cm
سؤال
A meter stick is pivoted at a point a distance a from its center and swings as a physical pendulum.Of the following values for a, which results in the shortest period of oscillation?

A)a = 0.1 m
B)a = 0.2 m
C)a = 0.3 m
D)a = 0.4 m
E)a = 0.5 m
سؤال
Below are sets of values for the spring constant k, damping constant b, and mass m for a particle in damped harmonic motion.Which of the sets takes the longest time for its mechanical energy to decrease to one-fourth of its initial value? <strong>Below are sets of values for the spring constant k, damping constant b, and mass m for a particle in damped harmonic motion.Which of the sets takes the longest time for its mechanical energy to decrease to one-fourth of its initial value? </strong> A)A B)B C)C D)D E)E <div style=padding-top: 35px>

A)A
B)B
C)C
D)D
E)E
سؤال
A particle undergoes damped harmonic motion.The spring constant is 100 N/m; the damping constant is 8.0 x 10-3 kg∙m/s, and the mass is 0.050 kg.If the particle starts at its maximum displacement, x = 1.5 m, at time t = 0, what is the amplitude of the motion at t = 5.0 s?

A)1.5 m
B)1.3 m
C)1.0 m
D)0.67 m
E)0.24 m
سؤال
Two uniform spheres are pivoted on horizontal axes that are tangent to their surfaces.The one with the longer period of oscillation is the one with:

A)the larger mass
B)the smaller mass
C)the larger rotational inertia
D)the smaller rotational inertia
E)the larger radius
سؤال
Both the x and y coordinates of a point execute simple harmonic motion.The result might be a circular orbit if:

A)the amplitudes are the same but the frequencies are different
B)the amplitudes and frequencies are both the same
C)the amplitudes and frequencies are both different
D)the phase constants are the same but the amplitudes are different
E)the amplitudes and the phase constants are both different
سؤال
Both the x and y coordinates of a point execute simple harmonic motion.The frequencies are the same but the amplitudes are different.The resulting orbit might be:

A)an ellipse
B)a circle
C)a parabola
D)a hyperbola
E)a square
سؤال
For an oscillator subjected to a damping force proportional to its velocity:

A)the displacement is a sinusoidal function of time
B)the velocity is a sinusoidal function of time
C)the frequency is a decreasing function of time
D)the mechanical energy is constant
E)none of the above is true
سؤال
A sinusoidal force with a given amplitude is applied to an oscillator.To maintain the largest amplitude oscillation the frequency of the applied force should be:

A)half the natural frequency of the oscillator
B)the same as the natural frequency of the oscillator
C)twice the natural frequency of the oscillator
D)unrelated to the natural frequency of the oscillator
E)determined from the maximum speed desired
سؤال
An oscillator is subjected to a damping force that is proportional to its velocity.A sinusoidal force is applied to it.After a long time:

A)its amplitude is an increasing function of time
B)its amplitude is a decreasing function of time
C)its amplitude is constant
D)its amplitude is a decreasing function of time only if the damping constant is large
E)its amplitude increases over some portions of a cycle and decreases over other portions
سؤال
An oscillator is driven by a sinusoidal force.The frequency of the applied force:

A)must be equal to the natural frequency of the oscillator
B)becomes the natural frequency of the oscillator
C)must be less than the natural frequency of the oscillator
D)must be greater than the natural frequency of the oscillator
E)is independent of the natural frequency of the oscillator
سؤال
A particle undergoes damped harmonic motion.The spring constant is 100 N/m; the damping constant is 8.0 x 10-3 kg∙m/s, and the mass is 0.050 kg.If the particle starts at its maximum displacement, x = 1.5 m, at time t = 0, what is the angular frequency of the oscillations?

A)4.0 rad/s
B)8.0 rad/s
C)12 rad/s
D)23 rad/s
E)45 rad/s
سؤال
A sinusoidal force with a given amplitude is applied to an oscillator.At resonance the amplitude of the oscillation is limited by:

A)the damping force
B)the initial amplitude
C)the initial velocity
D)the force of gravity
E)none of the above
سؤال
The angular displacement of a simple pendulum is given by θ(t)= θm cos (ωt + φ).If the pendulum is 45 cm in length, and is given an angular speed dθ/dt = 3.4 rad/s at time t = 0, when it is hanging vertically, what is θm?

A)4.6 rad
B)3.4 rad
C)1.4 rad
D)0.73 rad
E)0.45 rad
سؤال
At the instant its angular displacement is 0.32 rad, the angular acceleration of a physical pendulum is -630 rad/s2.What is its angular frequency of oscillation?

A)6.6 rad/s
B)14 rad/s
C)20 rad/s
D)44 rad/s
E)200 rad/s
سؤال
The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:

A) <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above <div style=padding-top: 35px>
B) <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above <div style=padding-top: 35px>
C)2π <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above <div style=padding-top: 35px>
D) <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above <div style=padding-top: 35px>
E)none of the above
سؤال
A particle undergoes damped harmonic motion.The spring constant is 100 N/m; the damping constant is 8.0 x 10-3 kg∙m/s, and the mass is 0.050 kg.If the particle starts at its maximum displacement, x = 1.5 m, at time t = 0, what is the particle's position at t = 5.0 s?

A)-1.5 m
B)-0.73 m
C)0 m
D)0.73 m
E)1.5 m
فتح الحزمة
قم بالتسجيل لفتح البطاقات في هذه المجموعة!
Unlock Deck
Unlock Deck
1/80
auto play flashcards
العب
simple tutorial
ملء الشاشة (f)
exit full mode
Deck 15: Oscillations
1
A particle is in simple harmonic motion with period T.At time t = 0 it is at the equilibrium point.At the times listed below it is at various points in its cycle.Which of them is farthest away from the equilibrium point?

A)0.5T
B)0.7T
C)T
D)1.4T
E)1.5T
0.7T
2
An object is undergoing simple harmonic motion.Throughout a complete cycle it:

A)has constant speed
B)has varying amplitude
C)has varying period
D)has varying acceleration
E)has varying mass
has varying acceleration
3
An object attached to one end of a spring makes 20 vibrations in 10 seconds.Its frequency is:

A)2 Hz
B)10 s
C)0.05 Hz
D)2 s
E)0.50 s
2 Hz
4
It is impossible for two particles, each executing simple harmonic motion, to remain in phase with each other if they have different:

A)masses
B)periods
C)amplitudes
D)spring constants
E)kinetic energies
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
5
Two identical undamped oscillators have the same amplitude of oscillation only if:

A)they are started with the same displacement x0
B)they are started with the same velocity v0
C)they are started with the same phase
D)they are started so the combination <strong>Two identical undamped oscillators have the same amplitude of oscillation only if:</strong> A)they are started with the same displacement x<sub>0</sub> B)they are started with the same velocity v<sub>0</sub> C)they are started with the same phase D)they are started so the combination is the same E)they are started so the combination is the same is the same
E)they are started so the combination <strong>Two identical undamped oscillators have the same amplitude of oscillation only if:</strong> A)they are started with the same displacement x<sub>0</sub> B)they are started with the same velocity v<sub>0</sub> C)they are started with the same phase D)they are started so the combination is the same E)they are started so the combination is the same is the same
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
6
An object attached to one end of a spring makes 20 vibrations in 10 seconds.Its angular frequency is:

A)0.79 rad/s
B)1.57 rad/s
C)2.0 rad/s
D)6.3 rad/s
E)12.6 rad/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
7
The amplitude of any oscillator will be doubled by:

A)doubling only the initial displacement
B)doubling only the initial speed
C)doubling the initial displacement and halving the initial speed
D)doubling the initial speed and halving the initial displacement
E)doubling both the initial displacement and the initial speed
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
8
A particle moves back and forth along the x axis from x = -xm to x = +xm, in simple harmonic motion with period T.At time t = 0 it is at x = +xm.When t = 0.75T:

A)it is at x = 0 and is traveling toward x = +xm
B)it is at x = 0 and is traveling toward x = -xm
C)it is at x = +xm and is at rest
D)it is between x = 0 and x = +xm and is traveling toward x = -xm
E)it is between x = 0 and x = -xm and is traveling toward x = -xm
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
9
A particle is in simple harmonic motion with period T.At time t=0 it is halfway between the equilibrium point and an end point of its motion, travelling toward the end point.The next time it is at the same place is:

A)t = T
B)t = T/2
C)t = T/3
D)t = T/4
E)none of the above
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
10
When a body executes simple harmonic motion, its acceleration at the ends of its path must be:

A)zero
B)less than g
C)more than g
D)suddenly changing in sign
E)none of these
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
11
An object attached to one end of a spring makes 20 complete vibrations in 10s.Its period is:

A)2 Hz
B)10 s
C)0.5 Hz
D)2 s
E)0.50 s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
12
The amplitude and phase constant of an oscillator are determined by:

A)the frequency
B)the angular frequency
C)the initial displacement alone
D)the initial velocity alone
E)both the initial displacement and velocity
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
13
Frequency f and angular frequency <strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f = are related by

A)f =<strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f =
B)f = 211ef0079_ce1c_a043_bc85_1b516becc8df_TB6585_11
C)f = <strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f =
D)f =<strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f =
E)f = <strong>Frequency f and angular frequency are related by</strong> A)f = B)f = 2 C)f = D)f = E)f =
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
14
This plot shows a mass oscillating as x = xm cos (ωt + φ).What are xm and φ? <strong>This plot shows a mass oscillating as x = x<sub>m</sub> cos (ωt + φ).What are x<sub>m</sub> and φ? </strong> A)1 m, 0° B)2 m, 0° C)2 m, 90° D)4 m, 0° E)4 m, 90°

A)1 m, 0°
B)2 m, 0°
C)2 m, 90°
D)4 m, 0°
E)4 m, 90°
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
15
A particle oscillating in simple harmonic motion is:

A)never in equilibrium because it is in motion
B)never in equilibrium because there is a force
C)in equilibrium at the ends of its path because its velocity is zero there
D)in equilibrium at the center of its path because the acceleration is zero there
E)in equilibrium at the ends of its path because the acceleration is zero there
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
16
A weight suspended from an ideal spring oscillates up and down with a period T.If the amplitude of the oscillation is doubled, the period will be:

A)T
B)1.5 T
C)2T
D)T/2
E)4T
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
17
An oscillatory motion must be simple harmonic if:

A)the amplitude is small
B)the potential energy is equal to the kinetic energy
C)the motion is along the arc of a circle
D)the acceleration varies sinusoidally with time
E)the derivative, dU/dx, of the potential energy is negative
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
18
A block attached to a spring oscillates in simple harmonic motion along the x axis.The limits of its motion are x = 10 cm and x = 50 cm and it goes from one of these extremes to the other in 0.25 s.Its amplitude and frequency are:

A)40 cm, 2 Hz
B)20 cm, 4 Hz
C)40 cm, 4 Hz
D)25 cm, 4 Hz
E)20 cm, 2 Hz
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
19
A particle moves in simple harmonic motion according to x = 2cos(50t), where x is in meters and t is in seconds.Its maximum velocity is:

A)100 sin(50t)m/s
B)100 cos(50t)m/s
C)100 m/s
D)200 m/s
E)none of these
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
20
In simple harmonic motion, the displacement is maximum when the:

A)acceleration is zero
B)velocity is maximum
C)velocity is zero
D)kinetic energy is maximum
E)momentum is maximum
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
21
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the oscillation is started by elongating the spring 0.15 m and giving the block a speed of 3.0 m/s, then the maximum speed of the block is:

A)0.13 m/s
B)0.18 m/s
C)3.7 m/s
D)5.2 m/s
E)13 m/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
22
In simple harmonic motion, the magnitude of the acceleration is:

A)constant
B)proportional to the displacement
C)inversely proportional to the displacement
D)greatest when the velocity is greatest
E)never greater than g
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
23
The displacement of an object oscillating on a spring is given by x(t)= xmcos( <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the initial displacement is zero and the initial velocity is in the negative x direction, then the phase constant is:</strong> A)0 radians B) \pi /2 radians C) \pi radians D)3 \pi /2 radians E)2 \pi radians + <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the initial displacement is zero and the initial velocity is in the negative x direction, then the phase constant is:</strong> A)0 radians B) \pi /2 radians C) \pi radians D)3 \pi /2 radians E)2 \pi radians ).If the initial displacement is zero and the initial velocity is in the negative x direction, then the phase constant 11ef007a_3990_6877_bc85_811eff4e9b0d_TB6585_11 is:

A)"0 radians"
B)" π\pi /2 radians"
C)" π\pi radians"
D)"3 π\pi /2 radians"
E)"2 π\pi radians"
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
24
A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: <strong>A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: </strong> A)2T B) C) D)T E)T/2

A)2T
B) <strong>A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: </strong> A)2T B) C) D)T E)T/2
C) <strong>A simple harmonic oscillator consists of a mass m and an ideal spring with spring constant k.The particle oscillates as shown in (i)with period T.If the spring is cut in half and used with the same particle, as shown in (ii), the period will be: </strong> A)2T B) C) D)T E)T/2
D)T
E)T/2
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
25
In simple harmonic motion:

A)the acceleration is greatest at the maximum displacement
B)the velocity is greatest at the maximum displacement
C)the period depends on the amplitude
D)the acceleration is constant
E)the acceleration is greatest at zero displacement
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
26
A 1.2-kg mass is oscillating without friction on a spring whose spring constant is 3400 N/m.When the mass's displacement is 7.2 cm, what is its acceleration?

A)−3.8 m/s2
B)−200 m/s2
C)−240 m/s2
D)−2.0 x 104 m/s2
E)cannot be calculated without more information
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
27
The displacement of an object oscillating on a spring is given by x(t)= xmcos( <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) + <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) is between:

A)"0 and π\pi /2 radians"
B)" π\pi /2 and π\pi radians"
C)" π\pi and 3 π\pi /2 radians"
D)"3 π\pi /2 and 2 π\pi radians"
E)"none of the above ( <strong>The displacement of an object oscillating on a spring is given by x(t)= x<sub>m</sub>cos( + ).If the object is initially displaced in the negative x direction and given a negative initial velocity, then the phase constant is between:</strong> A)0 and \pi /2 radians B) \pi /2 and \pi radians C) \pi and 3 \pi /2 radians D)3 \pi /2 and 2 \pi radians E)none of the above ( is exactly 0, \pi /2, \pi , or 3 \pi /2 radians) is exactly 0, π\pi /2, π\pi , or 3 π\pi /2 radians)"
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
28
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the oscillation is started by elongating the spring 0.15 m and giving the block a speed of 3.0 m/s, then the amplitude of the oscillation is:

A)0.13 m
B)0.18 m
C)3.7 m
D)5.2 m
E)13 m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
29
A certain spring elongates 9 mm when it is suspended vertically and a block of mass M is hung on it.The angular frequency of this mass-spring system:

A)is 0.088 rad/s
B)is 33 rad/s
C)is 200 rad/s
D)is 1140 rad/s
E)cannot be computed unless the value of M is given
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
30
The acceleration of a body executing simple harmonic motion leads the velocity by what phase?

A)"0 rad
B)" π\pi /8 rad"
C)" π\pi /4 rad"
D)" π\pi /2 rad"
E)" π\pi rad"
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
31
In simple harmonic motion, the restoring force must be proportional to the:

A)amplitude
B)frequency
C)velocity
D)displacement
E)displacement squared
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
32
Let U be the potential energy (with the zero at zero displacement)and K be the kinetic energy of a simple harmonic oscillator.Uavg and Kavg are the average values over a cycle.Then:

A)Kavg > Uavg
B)Kavg < Uavg
C)Kavg = Uavg
D)K = 0 when U = 0
E)K + U = 0
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
33
A 3-kg block, attached to a spring, executes simple harmonic motion according to x = 2cos(50t)where x is in meters and t is in seconds.The spring constant of the spring is:

A)1 N/m
B)100 N/m
C)150 N/m
D)7500 N/m
E)none of these
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
34
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the system has an energy of 6.0 J, then the maximum speed of the block is:

A)0.06 m/s
B)0.17 m/s
C)0.24 m/s
D)4.9 m/s
E)6.9 m/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
35
An object of mass m, oscillating on the end of a spring with spring constant k has amplitude A.Its maximum speed is:

A) <strong>An object of mass m, oscillating on the end of a spring with spring constant k has amplitude A.Its maximum speed is:</strong> A) B)A<sup>2</sup>k/m C) D)Am/k E)A<sup>2</sup>m/k
B)A2k/m
C) <strong>An object of mass m, oscillating on the end of a spring with spring constant k has amplitude A.Its maximum speed is:</strong> A) B)A<sup>2</sup>k/m C) D)Am/k E)A<sup>2</sup>m/k
D)Am/k
E)A2m/k
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
36
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.At one point in its motion its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When it is at x = xm, the kinetic and potential energies are:

A)K = 5 J and U = 3 J
B)K = 5 J and U = -3 J
C)K = 8 J and U = 0 J
D)K = 0 J and U = 8 J
E)K = 0 J and U = -8 J
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
37
In simple harmonic motion, the magnitude of the acceleration is greatest when:

A)the displacement is zero
B)the displacement is maximum
C)the speed is maximum
D)the force is zero
E)the speed is between zero and its maximum
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
38
A 0.20-kg object mass attached to a spring whose spring constant is 500 N/m executes simple harmonic motion.If its maximum speed is 5.0 m/s, the amplitude of its oscillation is:

A)0.0020 m
B)0.10 m
C)0.20 m
D)25 m
E)250 m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
39
A 0.25-kg block oscillates on the end of the spring with a spring constant of 200 N/m.If the system has an energy of 6.0 J, then the amplitude of the oscillation is:

A)0.06 m
B)0.17 m
C)0.24 m
D)4.9 m
E)6.9 m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
40
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When it is at x = -1/2 xm, the kinetic and potential energies are:

A)K = 6 J and U = 2 J
B)K = 6 J and U = -2 J
C)K = 8 J and U = 0 J
D)K = 0 J and U = 8 J
E)K = 0 J and U = -8 J
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
41
A simple pendulum has length L and period T.As it passes through its equilibrium position, the string is suddenly clamped at its mid-point.The period then becomes:

A)2T
B)T
C)T/2
D)T/4
E)none of the above
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
42
A disk whose rotational inertia is 450 kg∙m2 hangs from a wire whose torsion constant is 2300 N∙m/rad.What is the angular frequency of its torsional oscillations?

A)0.20 rad/s
B)0.44 rad/s
C)1.0 rad/s
D)2.3 rad/s
E)5.1 rad/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
43
A simple pendulum consists of a small ball tied to a string and set in oscillation.As the pendulum swings the tension in the string is:

A)constant
B)a sinusoidal function of time
C)the square of a sinusoidal function of time
D)the reciprocal of a sinusoidal function of time
E)none of the above
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
44
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When it is at x = -1/2 xm, its total energy is:

A)0 J
B)3 J
C)4 J
D)5 J
E)8 J
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
45
An angular simple harmonic oscillator:

A)oscillates at an angle to the x axis
B)oscillates along the y axis
C)involves an angular displacement and a restoring torque
D)involves an angular displacement and a restoring force
E)involves a linear displacement and a restoring torque
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
46
Which of the following is the difference between a simple pendulum and a physical pendulum?

A)The physical pendulum does not rotate around its center of mass.
B)The physical pendulum does not depend on the acceleration of gravity.
C)The physical pendulum has an extended mass.
D)The simple pendulum has a small amplitude.
E)The physical pendulum rotates around its center of mass.
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
47
An angular simple harmonic oscillator is displaced 5.2 x 10-2 rad from its equilibrium position.If the torsion constant is 1200 N∙m/rad, what is the torque?

A)12 N∙m
B)23 N∙m
C)43 N∙m
D)52 N∙m
E)62 N∙m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
48
A disk whose rotational inertia is 450 kg∙m2 hangs from a wire whose torsion constant is 2300 N∙m/rad.When its angular displacement is −0.23 rad, what is its angular acceleration?

A)1.0 x 10-2 rad/s2
B)4.5 x 10-2 rad/s2
C)0.23 rad/s2
D)0.52 rad/s2
E)1.2 rad/s2
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
49
A mass-spring system is oscillating with amplitude A.The kinetic energy will equal the potential energy only when the displacement is

A)"0"
B)" <strong>A mass-spring system is oscillating with amplitude A.The kinetic energy will equal the potential energy only when the displacement is</strong> A)0 B) A/4 C) D) A/2 E)anywhere between -A and +A A/4"
C) "<strong>A mass-spring system is oscillating with amplitude A.The kinetic energy will equal the potential energy only when the displacement is</strong> A)0 B) A/4 C) D) A/2 E)anywhere between -A and +A "
D)" 11ef007a_dba9_c0cc_bc85_310470f80211_TB6585_11 A/2"
E)"anywhere between -A and +A"
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
50
A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:

A) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E)
B) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E)
C) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E)
D) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E)
E) <strong>A simple pendulum is suspended from the ceiling of an elevator.The elevator is accelerating upwards with acceleration a.The period of this pendulum, in terms of its length L, g and a is:</strong> A) B) C) D) E)
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
51
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its kinetic energy is 8 J, it is at:

A)x = 0
B)x = x1
C)x = xm/2
D)x = xm/ <strong>A particle is in simple harmonic motion along the x axis.The amplitude of the motion is x<sub>m</sub>.When it is at x = x<sub>1</sub>, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its kinetic energy is 8 J, it is at:</strong> A)x = 0 B)x = x<sub>1</sub> C)x = x<sub>m</sub>/2 D)x = x<sub>m</sub>/ E)x = x<sub>m</sub>
E)x = xm
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
52
The amplitude of oscillation of a simple pendulum is increased from 1 °\degree to 4 °\degree .Its maximum acceleration changes by a factor of:

A)1/4
B)1/2
C)2
D)4
E)16
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
53
Three physical pendulums, with masses m1, m2 = 2m1, and m3 = 3m1, have the same shape and size and are suspended at the same point.Rank them according to their periods, from shortest to longest.

A)1, 2, 3
B)3, 2, 1
C)2, 3, 1
D)2, 1, 3
E)All three are the same
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
54
A particle is in simple harmonic motion along the x axis.The amplitude of the motion is xm.When it is at x = x1, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its potential energy is 8 J, it is at:

A)x = 0
B)x = x1
C)x = xm/2
D)x = xm/ <strong>A particle is in simple harmonic motion along the x axis.The amplitude of the motion is x<sub>m</sub>.When it is at x = x<sub>1</sub>, its kinetic energy is K = 5 J and its potential energy (measured with U = 0 at x = 0)is U = 3 J.When its potential energy is 8 J, it is at:</strong> A)x = 0 B)x = x<sub>1</sub> C)x = x<sub>m</sub>/2 D)x = x<sub>m</sub>/ E)x = x<sub>m</sub>
E)x = xm
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
55
If the length of a simple pendulum is doubled, its period will:

A)halve
B)increase by a factor of <strong>If the length of a simple pendulum is doubled, its period will:</strong> A)halve B)increase by a factor of C)decrease by a factor of D)double E)remain the same
C)decrease by a factor of <strong>If the length of a simple pendulum is doubled, its period will:</strong> A)halve B)increase by a factor of C)decrease by a factor of D)double E)remain the same
D)double
E)remain the same
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
56
Which of the following is NOT required for a simple pendulum undergoing simple harmonic oscillation?

A)a point mass
B)a massless string
C)a small amplitude
D)gravitational force
E)a large spring constant
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
57
An object on the end of a spring is set into oscillation by giving it an initial velocity while it is at its equilibrium position.In the first trial the initial velocity is v0 and in the second it is 4v0.In the second trial:

A)the amplitude is half as great and the maximum acceleration is twice as great
B)the amplitude is twice as great and the maximum acceleration is half as great
C)both the amplitude and the maximum acceleration are twice as great
D)both the amplitude and the maximum acceleration are four times as great
E)the amplitude is four times as great and the maximum acceleration is twice as great
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
58
A block attached to a spring undergoes simple harmonic motion on a horizontal frictionless surface.Its total energy is 50 J.When the displacement is half the amplitude, the kinetic energy is:

A)0 J
B)12.5 J
C)25 J
D)37.5 J
E)50 J
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
59
Five hoops are each pivoted at a point on the rim and allowed to swing as physical pendulums.The masses and radii are <strong>Five hoops are each pivoted at a point on the rim and allowed to swing as physical pendulums.The masses and radii are Order the hoops according to the periods of their motions, smallest to largest.</strong> A)1, 2, 3, 4, 5 B)5, 4, 3, 2, 1 C)1, 2, 3, 5, 4 D)1, 2, 5, 4, 3 E)5, 4, 1, 2, 3 Order the hoops according to the periods of their motions, smallest to largest.

A)1, 2, 3, 4, 5
B)5, 4, 3, 2, 1
C)1, 2, 3, 5, 4
D)1, 2, 5, 4, 3
E)5, 4, 1, 2, 3
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
60
A simple pendulum of length L and mass M has frequency f.To increase its frequency to 2f:

A)increase its length to 4L
B)increase its length to 2L
C)decrease its length to L/2
D)decrease its length to L/4
E)decrease its mass to < M/4
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
61
A block on a spring is subjected to an applied sinusoidal force AND to a damping force that is proportional to its velocity.The energy dissipated by damping is supplied by:

A)the potential energy of the spring
B)the kinetic energy of the mass
C)gravity
D)friction
E)the applied force
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
62
The period of a simple pendulum is 1 s on Earth.When brought to a planet where g is one-tenth that on Earth, its period becomes:

A)1 s
B) <strong>The period of a simple pendulum is 1 s on Earth.When brought to a planet where g is one-tenth that on Earth, its period becomes:</strong> A)1 s B) s C)1/10 s D) s E)10 s s
C)1/10 s
D) <strong>The period of a simple pendulum is 1 s on Earth.When brought to a planet where g is one-tenth that on Earth, its period becomes:</strong> A)1 s B) s C)1/10 s D) s E)10 s s
E)10 s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
63
Five particles undergo damped harmonic motion.Values for the spring constant k, the damping constant b, and the mass m are given below.Which leads to the smallest rate of loss of mechanical energy?

A)k = 100 N/m, m = 50 g, b = 8 g∙m/s
B)k = 150 N/m, m = 50 g, b = 5 g∙m/s
C)k = 150 N/m, m = 10 g, b = 8 g∙m/s
D)k = 200 N/m, m = 8 g, b = 6 g∙m/s
E)k = 100 N/m, m = 2 g, b = 4 g∙m/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
64
The rotational inertia of a uniform thin rod about its end is ML2/3, where M is the mass and L is the length.Such a rod is hung vertically from one end and set into small amplitude oscillation.If L = 1.0 m this rod will have the same period as a simple pendulum of length:

A)33 cm
B)50 cm
C)67 cm
D)100 cm
E)150 cm
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
65
A meter stick is pivoted at a point a distance a from its center and swings as a physical pendulum.Of the following values for a, which results in the shortest period of oscillation?

A)a = 0.1 m
B)a = 0.2 m
C)a = 0.3 m
D)a = 0.4 m
E)a = 0.5 m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
66
Below are sets of values for the spring constant k, damping constant b, and mass m for a particle in damped harmonic motion.Which of the sets takes the longest time for its mechanical energy to decrease to one-fourth of its initial value? <strong>Below are sets of values for the spring constant k, damping constant b, and mass m for a particle in damped harmonic motion.Which of the sets takes the longest time for its mechanical energy to decrease to one-fourth of its initial value? </strong> A)A B)B C)C D)D E)E

A)A
B)B
C)C
D)D
E)E
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
67
A particle undergoes damped harmonic motion.The spring constant is 100 N/m; the damping constant is 8.0 x 10-3 kg∙m/s, and the mass is 0.050 kg.If the particle starts at its maximum displacement, x = 1.5 m, at time t = 0, what is the amplitude of the motion at t = 5.0 s?

A)1.5 m
B)1.3 m
C)1.0 m
D)0.67 m
E)0.24 m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
68
Two uniform spheres are pivoted on horizontal axes that are tangent to their surfaces.The one with the longer period of oscillation is the one with:

A)the larger mass
B)the smaller mass
C)the larger rotational inertia
D)the smaller rotational inertia
E)the larger radius
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
69
Both the x and y coordinates of a point execute simple harmonic motion.The result might be a circular orbit if:

A)the amplitudes are the same but the frequencies are different
B)the amplitudes and frequencies are both the same
C)the amplitudes and frequencies are both different
D)the phase constants are the same but the amplitudes are different
E)the amplitudes and the phase constants are both different
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
70
Both the x and y coordinates of a point execute simple harmonic motion.The frequencies are the same but the amplitudes are different.The resulting orbit might be:

A)an ellipse
B)a circle
C)a parabola
D)a hyperbola
E)a square
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
71
For an oscillator subjected to a damping force proportional to its velocity:

A)the displacement is a sinusoidal function of time
B)the velocity is a sinusoidal function of time
C)the frequency is a decreasing function of time
D)the mechanical energy is constant
E)none of the above is true
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
72
A sinusoidal force with a given amplitude is applied to an oscillator.To maintain the largest amplitude oscillation the frequency of the applied force should be:

A)half the natural frequency of the oscillator
B)the same as the natural frequency of the oscillator
C)twice the natural frequency of the oscillator
D)unrelated to the natural frequency of the oscillator
E)determined from the maximum speed desired
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
73
An oscillator is subjected to a damping force that is proportional to its velocity.A sinusoidal force is applied to it.After a long time:

A)its amplitude is an increasing function of time
B)its amplitude is a decreasing function of time
C)its amplitude is constant
D)its amplitude is a decreasing function of time only if the damping constant is large
E)its amplitude increases over some portions of a cycle and decreases over other portions
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
74
An oscillator is driven by a sinusoidal force.The frequency of the applied force:

A)must be equal to the natural frequency of the oscillator
B)becomes the natural frequency of the oscillator
C)must be less than the natural frequency of the oscillator
D)must be greater than the natural frequency of the oscillator
E)is independent of the natural frequency of the oscillator
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
75
A particle undergoes damped harmonic motion.The spring constant is 100 N/m; the damping constant is 8.0 x 10-3 kg∙m/s, and the mass is 0.050 kg.If the particle starts at its maximum displacement, x = 1.5 m, at time t = 0, what is the angular frequency of the oscillations?

A)4.0 rad/s
B)8.0 rad/s
C)12 rad/s
D)23 rad/s
E)45 rad/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
76
A sinusoidal force with a given amplitude is applied to an oscillator.At resonance the amplitude of the oscillation is limited by:

A)the damping force
B)the initial amplitude
C)the initial velocity
D)the force of gravity
E)none of the above
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
77
The angular displacement of a simple pendulum is given by θ(t)= θm cos (ωt + φ).If the pendulum is 45 cm in length, and is given an angular speed dθ/dt = 3.4 rad/s at time t = 0, when it is hanging vertically, what is θm?

A)4.6 rad
B)3.4 rad
C)1.4 rad
D)0.73 rad
E)0.45 rad
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
78
At the instant its angular displacement is 0.32 rad, the angular acceleration of a physical pendulum is -630 rad/s2.What is its angular frequency of oscillation?

A)6.6 rad/s
B)14 rad/s
C)20 rad/s
D)44 rad/s
E)200 rad/s
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
79
The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:

A) <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above
B) <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above
C)2π <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above
D) <strong>The angular frequency of a simple pendulum depends on its length and on the local acceleration due to gravity.The rate at which the angular displacement of the pendulum changes, dθ/dt, is:</strong> A) B) C)2π D) E)none of the above
E)none of the above
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
80
A particle undergoes damped harmonic motion.The spring constant is 100 N/m; the damping constant is 8.0 x 10-3 kg∙m/s, and the mass is 0.050 kg.If the particle starts at its maximum displacement, x = 1.5 m, at time t = 0, what is the particle's position at t = 5.0 s?

A)-1.5 m
B)-0.73 m
C)0 m
D)0.73 m
E)1.5 m
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
فتح الحزمة
k this deck
locked card icon
فتح الحزمة
افتح القفل للوصول البطاقات البالغ عددها 80 في هذه المجموعة.
كويز بلس
surly
كويز بلس
اعمل معنا
سياسات
حمل التطبيق
امسح للتنزيلحمل التطبيق
qr-code
روابط
روابط
اعمل معنا
حمل التطبيق
surly
العربية
العربية
English
امسح للتنزيلحمل التطبيق
qr-code

العربية
العربية
English
تفوق شركة سعودية مقرها الرياض، المملكة العربية السعودية، ومرخصة بموجب سجل تجاري رقم (1009085957).
madaapple-payexpressmastercardvisa
جميع الحقوق محفوظة لشركة تفوق © 2024
  • facebook-footer
  • instagram-footer
  • x-footer
  • tiktok
  • Linktree