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Deck 5: Circular Motion

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Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant frequency of 4.00 cycles per second,then the tangential velocity of a point on the circumference is

A) 1.25 m/s.
B) 1.31 m/s.
C) 1.51 m/s.
D) 1.82 m/s.
E) 2.00 m/s.
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Question
An object is moving in a circular path with a radius of 5.00 m.If the object moves through an angle of 270 degrees,then the tangential distance traveled by the object is

A) 4.71 m.
B) 15.2 m.
C) 23.6 m.
D) 40.2 m.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the period of the rotational motion is

A) 0.143 s.
B) 0.224 s.
C) 0.314 s.
D) 0.421 s.
E) 0.558 s.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the frequency of the rotational motion is

A) 4.00 Hz.
B) 3.67 Hz.
C) 3.18 Hz.
D) 2.83 Hz.
E) 2.15 Hz.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular speed of 200 revolutions per minute,then the tangential velocity of a point on the circumference is

A) 1.76 m/s.
B) 1.54 m/s.
C) 1.41 m/s
D) 1.26 m/s.
E) 1.07 m/s.
Question
An object is moving in a circular path of radius 4.00 m.If the object moves through a tangential distance of 3.00 meters,then the angle the object travels through is

A) 0.750 radians.
B) 1.05 radians.
C) 1.46 radians.
D) 1.75 radians.
E) 1.90 radians.
Question
A 4.00 kg mass is moving in a circular path of radius 2.50 m with a constant angular velocity of 5.00 rad/sec.The centripetal force on the mass is

A) 250 N.
B) 185 N.
C) 153 N.
D) 107 N.
E) 94.0 N.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 25 radians per seconds,then the tangential velocity of a point on the circumference is

A) 1.0 m/s.
B) 1.5 m/s.
C) 2.0 m/s.
D) 2.5 m/s.
E) 3.0 m/s.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant frequency of 6.00 cycles per second,then the angular velocity is

A) 21.5 rad/s.
B) 26.9 rad/s.
C) 29.6 rad/s.
D) 33.3 rad/s.
E) 37.7 rad/s.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the frequency of the rotational motion is

A) 2.14 Hz.
B) 3.18 Hz.
C) 3.83 Hz
D) 4.50 Hz.
E) 4.89 Hz.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20 radians per seconds,then the tangential velocity of a point on the circumference is

A) 2.0 m/s.
B) 1.9 m/s.
C) 1.5 m/s.
D) 1.2 m/s.
E) 1.0 m/s.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant frequency of 4.00 cycles per second,then the period of the rotational motion is

A) 0.250 s.
B) 0.500 s.
C) 0.750 s.
D) 1.00 s.
E) 1.25 s.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the period of the rotational motion is

A) 0.314 s.
B) 0.441 s.
C) 0.582 s.
D) 0.698 s.
E) 0.750 s.
Question
An object is moving in a circular path of radius 4.00 m.If the object moves through an angle of 30.0 degrees,then the tangential distance traveled by the object is

A) 3.66 m.
B) 3.21 m.
C) 2.84 m.
D) 2.09 m.
E) 1.75 m.
Question
An object moving in a circle at a constant speed is

A) accelerating in the direction of motion.
B) accelerating toward the center of the circle.
C) accelerating away from the center of the circle.
D) not accelerating because its speed is constant.
Question
An object is moving in a circular path of radius R.If the object moves through an angle of 30.0 degrees,then the angle is

A) 0.22 radians.
B) 0.52 radians.
C) 0.75 radians.
D) 1.30 radians.
E) 1.75 radians.
Question
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular speed of 200 revolutions per minute,then the tangential velocity of a point on the circumference is

A) 1.06 m/s.
B) 1.26 m/s.
C) 1.39 m/s.
D) 1.62 m/s.
E) 1.32 m/s.
Question
A 4.0 kg mass is moving in a circular path of radius 2.5 m with a constant tangential velocity of 5.0 m/sec.The centripetal force on the mass is

A) 20 N.
B) 25 N.
C) 35 N.
D) 40 N.
E) 45 N.
Question
An object is moving in a circular path with a radius of 4.00 m.If the object moves through an angle of 45.0 degrees,then the angle is

A) 0.25 radians.
B) 0.53 radians.
C) 0.79 radians.
D) 1.02 radians.
E) 1.44 radians.
Question
An object is moving in a circular path of radius 4.00 m.If the object moves through an angle of 1.2 radians,then the tangential distance traveled by the object is

A) 2.8 m.
B) 3.2 m.
C) 3.8 m.
D) 4.3 m.
E) 4.8 m.
Question
A 2000 kg car is traveling on a banked curved icy road.The road is banked at an angle of 12.0 degrees and has a radius of curvature of 500 m.The velocity of the car necessary to travel on the icy road without sliding is

A) 32.3 m/s.
B) 40.5 m/s.
C) 42.8 m/s.
D) 49.5 m/s.
E) 50.2 m/s.
Question
A 0.500 kg stone is moving in a vertical circular path attached to a string that is 75.0 cm long.The stone is moving around the path at a constant frequency of 2.20 rev/sec.At the moment the stone is overhead,the stone is released.The magnitude and direction of the velocity of the stone when it leaves the circular path is

A) 10.4 m/s horizontal.
B) 10.4 m/s vertical.
C) 22.0 m/s horizontal.
D) 22.0 m/s vertical.
E) 31.4 m/s horizontal.
Question
A 5,000 kg satellite is orbiting the Earth in a circular path.The height of the satellite above the surface of the Earth is 800 km.The velocity of the satellite is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 7,460 m/s.
B) 6,830 m/s.
C) 6,430 m/s.
D) 5,950 m/s.
E) 5,350 m/s.
Question
A 4.00 kg mass is moving in a circular path of radius 3.20 m with a constant tangential velocity of 6.20 m/sec.The centripetal force on the mass is

A) 40.2 N.
B) 48.1 N.
C) 50.5 N.
D) 59.0 N.
E) 62.3 N.
Question
A 2000 kg car is traveling on a banked curved icy road without sliding.The velocity of the car is 30 m/s and the road is banked at an angle of 20.0 degrees.The radius of curvature of the road is

A) 175 m.
B) 204 m.
C) 252 m.
D) 302 m.
E) 375 m.
Question
A conical pendulum is constructed with a string 2.5 m in length.The pendulum is set in horizontal circular path about the vertical axis.If the angular velocity of the conical pendulum is a constant 2.8 rad/s,then the angle the string makes with the vertical axis is

A) 48 degrees.
B) 60 degrees.
C) 71 degrees.
D) 75 degrees.
E) 80 degrees.
Question
A 2000 kg car is traveling on a banked curved icy road without sliding.The velocity of the car is 32.0 m/s and the road is banked at an angle of 20.0 degrees.The radius of curvature of the road is

A) 125 m.
B) 210 m.
C) 287 m.
D) 310 m.
E) 350 m.
Question
Two moons orbit a planet in nearly circular orbits.Moon A has orbital radius r,and moon B has orbital radius 4r.Moon A takes 20 days to complete one orbit.How long does it take moon B to complete one orbit?

A) 320 days
B) 160 days
C) 20 days
D) 80 days
Question
A 2.60 kg mass is moving in a circular path with a constant angular velocity of 5.50 rad/sec and with a tangential velocity of 3.50 m/sec.The centripetal force on the mass is

A) 30.4 N.
B) 40.5 N.
C) 50.1 N.
D) 60.5 N.
E) 66.7 N.
Question
A 4.00 kg mass is moving in a circular path of radius 4.10 m with a constant angular velocity of 5.00 rad/sec.The centripetal force on the mass is

A) 267 N.
B) 294 N.
C) 302 N.
D) 350 N.
E) 410 N.
Question
A conical pendulum is constructed with a string 2.00 m in length.The pendulum is set in horizontal circular path the vertical axis.If the angle the string makes with the vertical axis is 45.0 degrees,then the angular velocity of the conical pendulum is

A) 4.00 rad/s.
B) 3.55 rad/s.
C) 3.04 rad/s.
D) 2.63 rad/s.
E) 2.01 rad/s.
Question
A 1.00 kg stone attached to a 1.00 m long string is traveling in a vertical circular orbit.What is the minimum tangential velocity at the top of the vertical circular orbit to keep the string from going slack?

A) 5.63 m/s
B) 5.31 m/s
C) 5.00 m/s
D) 4.50 m/s
E) 3.13 m/s
Question
A 4.00 kg mass is moving in a circular path with a constant angular velocity of 5.00 rad/sec and with a tangential velocity of 5.00 m/sec.The centripetal force on the mass is

A) 90.0 N.
B) 100 N.
C) 125 N.
D) 169 N.
E) 200 N.
Question
A 0.500 kg stone is moving in a vertical circular path attached to a string that is 75.0 cm long.The stone is moving around the path at a constant frequency of 1.50 rev/sec.At the moment the stone is overhead,the stone is released.The velocity of the stone when it leaves the circular path is

A) 5.55 m/s.
B) 7.07 m/s.
C) 7.75 m/s.
D) 8.35 m/s.
E) 9.00 m/s.
Question
A 2000 kg car is traveling on a banked curved icy road.The velocity of the car is 25.0 m/s and the road has a radius of curvature of 500 m.If the car is to travel on the icy road without sliding,then the angle of the banked road is

A) 25.7 degrees.
B) 21.0 degrees.
C) 12.7 degrees.
D) 10.5 degrees.
E) 7.27 degrees.
Question
A 5,000 kg satellite is orbiting the Earth in a geostationary orbit.The height of the satellite above the surface of the Earth is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 8.29 ×\times 107 m.
B) 6.35 ×\times 107 m.
C) 3.59 ×\times 107 m.
D) 2.95 ×\times 107 m.
E) 1.40 ×\times 107 m.
Question
A 5,000 kg satellite is orbiting the Earth in a circular path.The height of the satellite above the surface of the Earth is 800 km.The angular velocity of the satellite as it orbits the Earth is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 9.50 ×\times 10-4 rad/s.
B) 1.04 ×\times 10-3 rad/s.
C) 1.44 ×\times 10-3 rad/s.
D) 1.90 ×\times 10-3 rad/s.
E) 2.20 ×\times 10-3 rad/s.
Question
A 5,000 kg satellite is orbiting the Earth in a circular path.The height of the satellite above the surface of the Earth is 800 km.The time it takes for the satellite to travel around the Earth is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 0.750 hours.
B) 0.950 hours.
C) 1.25 hours.
D) 1.68 hours.
E) 2.01 hours.
Question
An airplane is traveling at 250 m/s in level flight.If the airplane is to make a change in direction,it must travel is a horizontal curved path.To fly in the curved path,the pilot banks the airplane at an angle such that the lift has a horizontal component that provides the horizontal centripetal acceleration to move in a horizontal circular path.If the airplane is banked at an angle of 15.0 degrees,then the radius of curvature of the curved path of the airplane is

A) 20.1 km.
B) 23.8 km.
C) 25.0 km.
D) 27.5 km.
E) 30.1 km.
Question
An airplane is traveling at 150 m/s in level flight.If the airplane is to make a change in direction,it must travel in a horizontal curved path.To fly in the curved path,the pilot banks the airplane at an angle such that the lift has a horizontal component that provides the horizontal centripetal acceleration to move in a horizontal circular path.If the airplane is banked at an angle of 12.0 degrees,then the radius of curvature of the curved path of the airplane is

A) 10.8 km.
B) 8.74 km.
C) 8.00 km.
D) 7.33 km.
E) 6.90 km.
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the tangential velocity of a point 4.0 cm from the center at the time 2.0 seconds from the start?

A) 0.060 m/s
B) 0.080 m/s
C) 0.10 m/s
D) 0.14 m/s
E) 0.18 m/s
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 15.0 seconds from the start?

A) 0.5 m/s2
B) 1.0 m/s2
C) 1.8 m/s2
D) 2.0 m/s2
E) 2.6 m/s2
Question
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.0 rad/sec2,then the angular velocity of the CD after 3.0 sec is

A) 12 rad/s.
B) 10 rad/s.
C) 9.0 rad/s.
D) 8.0 rad/s.
E) 6.0 rad/s.
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.00 cm from the center,at the time 10.0 seconds from the start?

A) 27.6 rad
B) 37.5 rad
C) 40.7 rad
D) 48.2 rad
E) 51.2 rad
Question
A 2.00 kg mass is moving in a circular path with a radius of 5.00 cm.The mass starts from rest and with constant angular acceleration,obtains an angular velocity of 6.00 rad/sec in 3.00 sec.The mass then comes to a stop with constant deceleration in 4.00 sec.The centripetal component of acceleration of the mass at 2.00 sec is

A) 1.220 m/s2.
B) 0.980 m/s2.
C) 0.806 m/s2.
D) 0.656 m/s2.
E) 0.520 m/s2.
Question
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.0 rad/sec2,then the tangential velocity of a point 3.0 cm from the center of the CD after 3.0 sec is

A) 18 cm/s.
B) 21 cm/s.
C) 25 cm/s.
D) 32 cm/s.
E) 45 cm/s.
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.00 cm from the center,at the time 25.0 seconds from the start?

A) 107 rad
B) 193 rad
C) 205 rad
D) 237 rad
E) 274 rad
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the tangential velocity of a point 4.0 cm from the center at the time 10.0 seconds from the start?

A) 0.50 rad/s
B) 0.40 rad/s
C) 0.30 rad/s
D) 0.20 rad/s
E) 0.10 rad/s
Question
A CD has a diameter of 12.0 cm and is rotating at an angular velocity of 10.0 rad/sec.If the CD has a constant angular deceleration of -0.5 rad/sec2,then the angular velocity of the CD after 3.0 sec is

A) 5.7 rad/s.
B) 6.2 rad/s.
C) 7.9 rad/s.
D) 8.5 rad/s.
E) 9.8 rad/s.
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.00 cm from the center,at the time 10.0 seconds from the start?

A) 20.8 radians
B) 26.3 radians
C) 37.5 radians
D) 41.6 radians
E) 47.3 radians
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the total acceleration of a point 4.00 cm from the center at the time 30.0 seconds from the start?

A) 0.0650 m/s2
B) 0.0522 m/s2
C) 0.0444 m/s2
D) 0.0324 m/s2
E) 0.0243 m/s2
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 2.0 seconds from the start?

A) 0.37 m/s2
B) 0.30 m/s2
C) 0.28 m/s2
D) 0.21 m/s2
E) 0.16 m/s2
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the total acceleration of a point 4.00 cm from the center at the time 2.00 seconds from the start?

A) 0.450 m/s2
B) 0.314 m/s2
C) 0.215 m/s2
D) 0.165 m/s2
E) 0.100 m/s2
Question
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.0 rad/sec2,then the tangential acceleration of a point 3.0 cm from the center of the CD after 3.0 sec is

A) 0.40 m/s2.
B) 0.25 m/s2.
C) 0.10 m/s2.
D) 0.06 m/s2.
E) 0.03 m/s2.
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the total acceleration of a point 4.00 cm from the center at the time 10.0 seconds from the start?

A) 0.65 m/s2
B) 1.00 m/s2
C) 1.25 m/s2
D) 1.37 m/s2
E) 1.86 m/s2
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.0 cm from the center,at the time 2.0 seconds from the start?

A) 2.0 rad
B) 4.0 rad
C) 6.0 rad
D) 8.0 rad
E) 10.0 rad
Question
A 2.0 kg mass is moving in a circular path with a radius of 5.00 cm.The mass starts from rest and with constant angular acceleration,obtains an angular velocity of 6.00 rad/sec in 3.00 sec.The mass then comes to a stop with constant angular deceleration in 4.00 sec.The centripetal component of acceleration of the mass at 5.00 sec after the start is

A) 2.50 m/s2.
B) 2.03 m/s2.
C) 1.25 m/s2.
D) 0.980 m/s2.
E) 0.456 m/s2.
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 25.0 seconds from the start?

A) 0.47 m/s2
B) 0.40 m/s2
C) 0.34 m/s2
D) 0.24 m/s2
E) 0.20 m/s2
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 10.0 seconds from the start?

A) 2.0 m/s2
B) 1.8 m/s2
C) 1.0 m/s2
D) 0.9 m/s2
E) 0.6 m/s2
Question
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the tangential velocity of a point 4.0 cm from the center at the time 25.0 seconds from the start?

A) 5.2 ×\times 10-3 m/s
B) 6.7 ×\times 10-3 m/s
C) 7.2 ×\times 10-3 m/s
D) 8.5 ×\times 10-3 m/s
E) 9.7 ×\times 10-3 m/s
Question
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 0.600 rad/sec2,then the total acceleration of a point 3.00 cm from the center of the CD after 1.30 sec is

A) 0.0256 m/s2.
B) 0.0306 m/s2.
C) 0.0415 m/s2.
D) 0.0472 m/s2.
E) 0.0502 m/s2.
Question
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.00 rad/sec2,then the centripetal acceleration of a point 3.00 cm from the center of the CD after 3.00 sec is

A) 0.950 m/s2.
B) 1.08 m/s2.
C) 1.25 m/s2.
D) 1.58 m/s2.
E) 1.83 m/s2.
Question
A planet of mass M orbits a star in a circular orbit of radius R,in orbital period T.What would be the orbital period of another planet,orbiting at radius R,but having mass 2M?

A) 0.71T
B) T
C) 1.4T
D) 2T
E) 0.50T
Question
The Crab Pulsar has a period that is currently of length 33.085 ms.It is estimated to have an equatorial radius of 15 km,about average for a neutron star.The pulsar is slowing in its rotation so that it is expected to come to rest 9.5 ×\times 1010 s in the future.What is the value of the tangential acceleration of an object on the neutron star's equator?

A) 3.0 ×\times 10-5 m/s2
B) 2.0 ×\times 10-9 m/s2
C) 3.2 ×\times 10-10 m/s2
D) 7.6 ×\times 10-7 m/s2
E) 4.8 ×\times 10-6 m/s2
Question
Two objects attract each other gravitationally.If the distance between their centers doubles,the gravitational force

A) is a half.
B) doubles.
C) is a fourth.
D) quadruples.
Question
A 4,000 kg satellite is traveling in a circular orbit 200 km above the surface of the Earth.A 3.00 gram marble is dropped inside the satellite.What is the acceleration of the marble as viewed by the observers inside the satellite? (Me = 5.98 ×\times 1024 kg,Re = 6.37 ×\times 106 m,G = 6.67 ×\times 10-11 N.m2/kg2)

A) 0.00 m/s2
B) 1.62 m/s2
C) 2.64 m/s2
D) 4.90 m/s2
E) 9.24 m/s2
Question
A 35.0 kg child swings on a rope with a length of 6.50 m that is hanging from a tree.At the bottom of the swing the child is moving at a speed of 4.20 m/s.What is the tension in the rope?

A) 95.0 N
B) 438 N
C) 343 N
D) 366 N
Question
A car travels around an unbanked curve at 17 m/s.If the static friction coefficient between the tires and the road is 0.45,what is the minimum radius curve that the car can take at this speed without slipping?

A) 65 m
B) 3.9 m
C) 15 m
D) 8.1 m
Question
A roller coaster has a vertical loop with radius 29.5 m.What is the minimum speed of the roller coaster car can have at the top of the loop if the passengers do not lose contact with the seats?

A) 10.0 m/s
B) 14.0 m/s
C) 17.0 m/s
D) 19.0 m/s
Question
A 4,000 kg satellite is traveling in a circular orbit 200 km above the surface of the Earth.A 3.00 gram marble is dropped inside the satellite.What is the acceleration of the marble as viewed by the observers on the Earth? (Me = 5.98 ×\times 1024 kg,Re = 6.37 ×\times 106 m,G = 6.67 ×\times 10-11 N.m2/kg2)

A) 9.80 m/s2
B) 9.24 m/s2
C) 8.90 m/s2
D) 8.62 m/s2
E) 7.95 m/s2
Question
The Crab Pulsar has a period of length 33.085 ms.It is estimated to have an equatorial radius of 15 km,about average for a neutron star.What is the value of the centripetal acceleration of an object on the surface at the equator of the pulsar?

A) 5.4 ×\times 108 m/s2
B) 2.7 ×\times 108 m/s2
C) 8.9 ×\times 108 m/s2
D) 6.7 ×\times 108 m/s2
Question
Two planets each travel in a circular orbit about a star at radii of ra = 2R and rb = R,respectively.What is the ratio of their periods Ta/Tb?

A) 1.6
B) 2.8
C) 1.3
D) 1.4
E) 2.0
Question
When a girl swings in a tire swing,the tangential acceleration in the rope

A) is the greatest at the highest point of the motion.
B) is the greatest at the lowest point of the motion.
C) is the greatest at a point neither highest nor lowest.
D) is constant.
Question
Two planets travel in circular orbits about a star.The period of planet A is T,while that of planet B is 3T.What is the ratio of the orbital radii,RA/RB?

A) 0.33
B) 0.19
C) 0.48
D) 0.69
Question
The Crab Pulsar has a period that is currently of length 33.085 ms.It is estimated to have an equatorial radius of 15 km,about average for a neutron star.The pulsar is slowing in its rotation so that it is expected to come to rest 9.5 ×\times 1010 s in the future.What is the angular acceleration in this situation?

A) 4.8 ×\times 10-6 s-2
B) 3.0 ×\times 10-5 s-2
C) 7.6 ×\times 10-7 s-2
D) 2.0 ×\times 10-9 s-2
E) 3.2 ×\times 10-10 s-2
Question
A car travels around a 35 m radius unbanked curve.The static friction coefficient between the tires and the road is 0.45.What is the maximum speed at which the car can travel without slipping around this corner?

A) 2.8 m/s
B) 27.6 m/s
C) 12.4 m/s
D) 7.5 m/s
Question
A car travels at 17 m/s without skidding around a 35 m radius unbanked curve.What is the minimum value of the static friction coefficient between the tires and the road?

A) 0.84
B) 0.050
C) 0.0014
D) 0.024
Question
A figure skater spins at the end of her routine,and slows down with an angular acceleration of 1.2 radians per second squared.If she initially spun with a period of 0.2 seconds,how many turns does she go through while slowing to a stop?

A) 65
B) 6
C) 33
D) 15
Question
The radius of the Earth is r.A satellite of mass 100 kg is at a point 3r above the Earth's surface.What is the satellites' weight?

A) 6.3 N
B) 110 N
C) 61 N
D) 38 N
Question
A 4,000 kg satellite is traveling in a circular orbit 200 km above the surface of the Earth.A 3.00 gram marble is dropped inside the satellite.What is the force of gravity on the marble as viewed by the observers on the Earth? (Me = 5.98 ×\times 1024 kg,Re = 6.37 ×\times 106 m,G = 6.67 ×\times 10-11 N.m2/kg2)

A) 0.405 N
B) 0.362 N
C) 0.277 N
D) 0.202 N
E) 0.185 N
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Deck 5: Circular Motion
1
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant frequency of 4.00 cycles per second,then the tangential velocity of a point on the circumference is

A) 1.25 m/s.
B) 1.31 m/s.
C) 1.51 m/s.
D) 1.82 m/s.
E) 2.00 m/s.
1.51 m/s.
2
An object is moving in a circular path with a radius of 5.00 m.If the object moves through an angle of 270 degrees,then the tangential distance traveled by the object is

A) 4.71 m.
B) 15.2 m.
C) 23.6 m.
D) 40.2 m.
23.6 m.
3
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the period of the rotational motion is

A) 0.143 s.
B) 0.224 s.
C) 0.314 s.
D) 0.421 s.
E) 0.558 s.
0.314 s.
4
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the frequency of the rotational motion is

A) 4.00 Hz.
B) 3.67 Hz.
C) 3.18 Hz.
D) 2.83 Hz.
E) 2.15 Hz.
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5
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular speed of 200 revolutions per minute,then the tangential velocity of a point on the circumference is

A) 1.76 m/s.
B) 1.54 m/s.
C) 1.41 m/s
D) 1.26 m/s.
E) 1.07 m/s.
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6
An object is moving in a circular path of radius 4.00 m.If the object moves through a tangential distance of 3.00 meters,then the angle the object travels through is

A) 0.750 radians.
B) 1.05 radians.
C) 1.46 radians.
D) 1.75 radians.
E) 1.90 radians.
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7
A 4.00 kg mass is moving in a circular path of radius 2.50 m with a constant angular velocity of 5.00 rad/sec.The centripetal force on the mass is

A) 250 N.
B) 185 N.
C) 153 N.
D) 107 N.
E) 94.0 N.
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8
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 25 radians per seconds,then the tangential velocity of a point on the circumference is

A) 1.0 m/s.
B) 1.5 m/s.
C) 2.0 m/s.
D) 2.5 m/s.
E) 3.0 m/s.
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9
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant frequency of 6.00 cycles per second,then the angular velocity is

A) 21.5 rad/s.
B) 26.9 rad/s.
C) 29.6 rad/s.
D) 33.3 rad/s.
E) 37.7 rad/s.
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10
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the frequency of the rotational motion is

A) 2.14 Hz.
B) 3.18 Hz.
C) 3.83 Hz
D) 4.50 Hz.
E) 4.89 Hz.
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11
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20 radians per seconds,then the tangential velocity of a point on the circumference is

A) 2.0 m/s.
B) 1.9 m/s.
C) 1.5 m/s.
D) 1.2 m/s.
E) 1.0 m/s.
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12
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant frequency of 4.00 cycles per second,then the period of the rotational motion is

A) 0.250 s.
B) 0.500 s.
C) 0.750 s.
D) 1.00 s.
E) 1.25 s.
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13
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular velocity of 20.0 radians per seconds,then the period of the rotational motion is

A) 0.314 s.
B) 0.441 s.
C) 0.582 s.
D) 0.698 s.
E) 0.750 s.
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14
An object is moving in a circular path of radius 4.00 m.If the object moves through an angle of 30.0 degrees,then the tangential distance traveled by the object is

A) 3.66 m.
B) 3.21 m.
C) 2.84 m.
D) 2.09 m.
E) 1.75 m.
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15
An object moving in a circle at a constant speed is

A) accelerating in the direction of motion.
B) accelerating toward the center of the circle.
C) accelerating away from the center of the circle.
D) not accelerating because its speed is constant.
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16
An object is moving in a circular path of radius R.If the object moves through an angle of 30.0 degrees,then the angle is

A) 0.22 radians.
B) 0.52 radians.
C) 0.75 radians.
D) 1.30 radians.
E) 1.75 radians.
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17
A CD has a diameter of 12.0 cm.If the CD is rotating at a constant angular speed of 200 revolutions per minute,then the tangential velocity of a point on the circumference is

A) 1.06 m/s.
B) 1.26 m/s.
C) 1.39 m/s.
D) 1.62 m/s.
E) 1.32 m/s.
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18
A 4.0 kg mass is moving in a circular path of radius 2.5 m with a constant tangential velocity of 5.0 m/sec.The centripetal force on the mass is

A) 20 N.
B) 25 N.
C) 35 N.
D) 40 N.
E) 45 N.
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19
An object is moving in a circular path with a radius of 4.00 m.If the object moves through an angle of 45.0 degrees,then the angle is

A) 0.25 radians.
B) 0.53 radians.
C) 0.79 radians.
D) 1.02 radians.
E) 1.44 radians.
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20
An object is moving in a circular path of radius 4.00 m.If the object moves through an angle of 1.2 radians,then the tangential distance traveled by the object is

A) 2.8 m.
B) 3.2 m.
C) 3.8 m.
D) 4.3 m.
E) 4.8 m.
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21
A 2000 kg car is traveling on a banked curved icy road.The road is banked at an angle of 12.0 degrees and has a radius of curvature of 500 m.The velocity of the car necessary to travel on the icy road without sliding is

A) 32.3 m/s.
B) 40.5 m/s.
C) 42.8 m/s.
D) 49.5 m/s.
E) 50.2 m/s.
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22
A 0.500 kg stone is moving in a vertical circular path attached to a string that is 75.0 cm long.The stone is moving around the path at a constant frequency of 2.20 rev/sec.At the moment the stone is overhead,the stone is released.The magnitude and direction of the velocity of the stone when it leaves the circular path is

A) 10.4 m/s horizontal.
B) 10.4 m/s vertical.
C) 22.0 m/s horizontal.
D) 22.0 m/s vertical.
E) 31.4 m/s horizontal.
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23
A 5,000 kg satellite is orbiting the Earth in a circular path.The height of the satellite above the surface of the Earth is 800 km.The velocity of the satellite is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 7,460 m/s.
B) 6,830 m/s.
C) 6,430 m/s.
D) 5,950 m/s.
E) 5,350 m/s.
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24
A 4.00 kg mass is moving in a circular path of radius 3.20 m with a constant tangential velocity of 6.20 m/sec.The centripetal force on the mass is

A) 40.2 N.
B) 48.1 N.
C) 50.5 N.
D) 59.0 N.
E) 62.3 N.
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25
A 2000 kg car is traveling on a banked curved icy road without sliding.The velocity of the car is 30 m/s and the road is banked at an angle of 20.0 degrees.The radius of curvature of the road is

A) 175 m.
B) 204 m.
C) 252 m.
D) 302 m.
E) 375 m.
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26
A conical pendulum is constructed with a string 2.5 m in length.The pendulum is set in horizontal circular path about the vertical axis.If the angular velocity of the conical pendulum is a constant 2.8 rad/s,then the angle the string makes with the vertical axis is

A) 48 degrees.
B) 60 degrees.
C) 71 degrees.
D) 75 degrees.
E) 80 degrees.
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27
A 2000 kg car is traveling on a banked curved icy road without sliding.The velocity of the car is 32.0 m/s and the road is banked at an angle of 20.0 degrees.The radius of curvature of the road is

A) 125 m.
B) 210 m.
C) 287 m.
D) 310 m.
E) 350 m.
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28
Two moons orbit a planet in nearly circular orbits.Moon A has orbital radius r,and moon B has orbital radius 4r.Moon A takes 20 days to complete one orbit.How long does it take moon B to complete one orbit?

A) 320 days
B) 160 days
C) 20 days
D) 80 days
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29
A 2.60 kg mass is moving in a circular path with a constant angular velocity of 5.50 rad/sec and with a tangential velocity of 3.50 m/sec.The centripetal force on the mass is

A) 30.4 N.
B) 40.5 N.
C) 50.1 N.
D) 60.5 N.
E) 66.7 N.
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30
A 4.00 kg mass is moving in a circular path of radius 4.10 m with a constant angular velocity of 5.00 rad/sec.The centripetal force on the mass is

A) 267 N.
B) 294 N.
C) 302 N.
D) 350 N.
E) 410 N.
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31
A conical pendulum is constructed with a string 2.00 m in length.The pendulum is set in horizontal circular path the vertical axis.If the angle the string makes with the vertical axis is 45.0 degrees,then the angular velocity of the conical pendulum is

A) 4.00 rad/s.
B) 3.55 rad/s.
C) 3.04 rad/s.
D) 2.63 rad/s.
E) 2.01 rad/s.
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32
A 1.00 kg stone attached to a 1.00 m long string is traveling in a vertical circular orbit.What is the minimum tangential velocity at the top of the vertical circular orbit to keep the string from going slack?

A) 5.63 m/s
B) 5.31 m/s
C) 5.00 m/s
D) 4.50 m/s
E) 3.13 m/s
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33
A 4.00 kg mass is moving in a circular path with a constant angular velocity of 5.00 rad/sec and with a tangential velocity of 5.00 m/sec.The centripetal force on the mass is

A) 90.0 N.
B) 100 N.
C) 125 N.
D) 169 N.
E) 200 N.
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34
A 0.500 kg stone is moving in a vertical circular path attached to a string that is 75.0 cm long.The stone is moving around the path at a constant frequency of 1.50 rev/sec.At the moment the stone is overhead,the stone is released.The velocity of the stone when it leaves the circular path is

A) 5.55 m/s.
B) 7.07 m/s.
C) 7.75 m/s.
D) 8.35 m/s.
E) 9.00 m/s.
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35
A 2000 kg car is traveling on a banked curved icy road.The velocity of the car is 25.0 m/s and the road has a radius of curvature of 500 m.If the car is to travel on the icy road without sliding,then the angle of the banked road is

A) 25.7 degrees.
B) 21.0 degrees.
C) 12.7 degrees.
D) 10.5 degrees.
E) 7.27 degrees.
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36
A 5,000 kg satellite is orbiting the Earth in a geostationary orbit.The height of the satellite above the surface of the Earth is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 8.29 ×\times 107 m.
B) 6.35 ×\times 107 m.
C) 3.59 ×\times 107 m.
D) 2.95 ×\times 107 m.
E) 1.40 ×\times 107 m.
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37
A 5,000 kg satellite is orbiting the Earth in a circular path.The height of the satellite above the surface of the Earth is 800 km.The angular velocity of the satellite as it orbits the Earth is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 9.50 ×\times 10-4 rad/s.
B) 1.04 ×\times 10-3 rad/s.
C) 1.44 ×\times 10-3 rad/s.
D) 1.90 ×\times 10-3 rad/s.
E) 2.20 ×\times 10-3 rad/s.
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38
A 5,000 kg satellite is orbiting the Earth in a circular path.The height of the satellite above the surface of the Earth is 800 km.The time it takes for the satellite to travel around the Earth is (Me = 5.98 ×\times 1024 kg, Re = 6.37 ×\times 106 m, G = 6.67 ×\times 10-11 N.m2/kg2)

A) 0.750 hours.
B) 0.950 hours.
C) 1.25 hours.
D) 1.68 hours.
E) 2.01 hours.
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39
An airplane is traveling at 250 m/s in level flight.If the airplane is to make a change in direction,it must travel is a horizontal curved path.To fly in the curved path,the pilot banks the airplane at an angle such that the lift has a horizontal component that provides the horizontal centripetal acceleration to move in a horizontal circular path.If the airplane is banked at an angle of 15.0 degrees,then the radius of curvature of the curved path of the airplane is

A) 20.1 km.
B) 23.8 km.
C) 25.0 km.
D) 27.5 km.
E) 30.1 km.
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40
An airplane is traveling at 150 m/s in level flight.If the airplane is to make a change in direction,it must travel in a horizontal curved path.To fly in the curved path,the pilot banks the airplane at an angle such that the lift has a horizontal component that provides the horizontal centripetal acceleration to move in a horizontal circular path.If the airplane is banked at an angle of 12.0 degrees,then the radius of curvature of the curved path of the airplane is

A) 10.8 km.
B) 8.74 km.
C) 8.00 km.
D) 7.33 km.
E) 6.90 km.
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41
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the tangential velocity of a point 4.0 cm from the center at the time 2.0 seconds from the start?

A) 0.060 m/s
B) 0.080 m/s
C) 0.10 m/s
D) 0.14 m/s
E) 0.18 m/s
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42
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 15.0 seconds from the start?

A) 0.5 m/s2
B) 1.0 m/s2
C) 1.8 m/s2
D) 2.0 m/s2
E) 2.6 m/s2
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43
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.0 rad/sec2,then the angular velocity of the CD after 3.0 sec is

A) 12 rad/s.
B) 10 rad/s.
C) 9.0 rad/s.
D) 8.0 rad/s.
E) 6.0 rad/s.
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44
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.00 cm from the center,at the time 10.0 seconds from the start?

A) 27.6 rad
B) 37.5 rad
C) 40.7 rad
D) 48.2 rad
E) 51.2 rad
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45
A 2.00 kg mass is moving in a circular path with a radius of 5.00 cm.The mass starts from rest and with constant angular acceleration,obtains an angular velocity of 6.00 rad/sec in 3.00 sec.The mass then comes to a stop with constant deceleration in 4.00 sec.The centripetal component of acceleration of the mass at 2.00 sec is

A) 1.220 m/s2.
B) 0.980 m/s2.
C) 0.806 m/s2.
D) 0.656 m/s2.
E) 0.520 m/s2.
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46
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.0 rad/sec2,then the tangential velocity of a point 3.0 cm from the center of the CD after 3.0 sec is

A) 18 cm/s.
B) 21 cm/s.
C) 25 cm/s.
D) 32 cm/s.
E) 45 cm/s.
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47
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.00 cm from the center,at the time 25.0 seconds from the start?

A) 107 rad
B) 193 rad
C) 205 rad
D) 237 rad
E) 274 rad
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48
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the tangential velocity of a point 4.0 cm from the center at the time 10.0 seconds from the start?

A) 0.50 rad/s
B) 0.40 rad/s
C) 0.30 rad/s
D) 0.20 rad/s
E) 0.10 rad/s
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49
A CD has a diameter of 12.0 cm and is rotating at an angular velocity of 10.0 rad/sec.If the CD has a constant angular deceleration of -0.5 rad/sec2,then the angular velocity of the CD after 3.0 sec is

A) 5.7 rad/s.
B) 6.2 rad/s.
C) 7.9 rad/s.
D) 8.5 rad/s.
E) 9.8 rad/s.
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50
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.00 cm from the center,at the time 10.0 seconds from the start?

A) 20.8 radians
B) 26.3 radians
C) 37.5 radians
D) 41.6 radians
E) 47.3 radians
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51
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the total acceleration of a point 4.00 cm from the center at the time 30.0 seconds from the start?

A) 0.0650 m/s2
B) 0.0522 m/s2
C) 0.0444 m/s2
D) 0.0324 m/s2
E) 0.0243 m/s2
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52
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 2.0 seconds from the start?

A) 0.37 m/s2
B) 0.30 m/s2
C) 0.28 m/s2
D) 0.21 m/s2
E) 0.16 m/s2
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53
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the total acceleration of a point 4.00 cm from the center at the time 2.00 seconds from the start?

A) 0.450 m/s2
B) 0.314 m/s2
C) 0.215 m/s2
D) 0.165 m/s2
E) 0.100 m/s2
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54
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.0 rad/sec2,then the tangential acceleration of a point 3.0 cm from the center of the CD after 3.0 sec is

A) 0.40 m/s2.
B) 0.25 m/s2.
C) 0.10 m/s2.
D) 0.06 m/s2.
E) 0.03 m/s2.
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55
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.00 rad/sec2 acquires an angular velocity of 5.00 rad/sec.The CD continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the total acceleration of a point 4.00 cm from the center at the time 10.0 seconds from the start?

A) 0.65 m/s2
B) 1.00 m/s2
C) 1.25 m/s2
D) 1.37 m/s2
E) 1.86 m/s2
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56
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the angular distance traveled by a point 4.0 cm from the center,at the time 2.0 seconds from the start?

A) 2.0 rad
B) 4.0 rad
C) 6.0 rad
D) 8.0 rad
E) 10.0 rad
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57
A 2.0 kg mass is moving in a circular path with a radius of 5.00 cm.The mass starts from rest and with constant angular acceleration,obtains an angular velocity of 6.00 rad/sec in 3.00 sec.The mass then comes to a stop with constant angular deceleration in 4.00 sec.The centripetal component of acceleration of the mass at 5.00 sec after the start is

A) 2.50 m/s2.
B) 2.03 m/s2.
C) 1.25 m/s2.
D) 0.980 m/s2.
E) 0.456 m/s2.
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58
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 25.0 seconds from the start?

A) 0.47 m/s2
B) 0.40 m/s2
C) 0.34 m/s2
D) 0.24 m/s2
E) 0.20 m/s2
Unlock Deck
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Unlock Deck
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59
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the centripetal acceleration of a point 4.0 cm from the center at the time 10.0 seconds from the start?

A) 2.0 m/s2
B) 1.8 m/s2
C) 1.0 m/s2
D) 0.9 m/s2
E) 0.6 m/s2
Unlock Deck
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Unlock Deck
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60
A CD with a diameter of 12.0 cm starts from rest and with a constant angular acceleration of 1.0 rad/sec2 acquires an angular velocity of 5.0 rad/sec.The CD continues rotating at 5.0 rad/sec for 15.0 seconds and then slows to a stop in 12.0 second with a constant angular deceleration.What is the tangential velocity of a point 4.0 cm from the center at the time 25.0 seconds from the start?

A) 5.2 ×\times 10-3 m/s
B) 6.7 ×\times 10-3 m/s
C) 7.2 ×\times 10-3 m/s
D) 8.5 ×\times 10-3 m/s
E) 9.7 ×\times 10-3 m/s
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61
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 0.600 rad/sec2,then the total acceleration of a point 3.00 cm from the center of the CD after 1.30 sec is

A) 0.0256 m/s2.
B) 0.0306 m/s2.
C) 0.0415 m/s2.
D) 0.0472 m/s2.
E) 0.0502 m/s2.
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62
A CD has a diameter of 12.0 cm.If the CD starts from rest and has a constant angular acceleration of 2.00 rad/sec2,then the centripetal acceleration of a point 3.00 cm from the center of the CD after 3.00 sec is

A) 0.950 m/s2.
B) 1.08 m/s2.
C) 1.25 m/s2.
D) 1.58 m/s2.
E) 1.83 m/s2.
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63
A planet of mass M orbits a star in a circular orbit of radius R,in orbital period T.What would be the orbital period of another planet,orbiting at radius R,but having mass 2M?

A) 0.71T
B) T
C) 1.4T
D) 2T
E) 0.50T
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64
The Crab Pulsar has a period that is currently of length 33.085 ms.It is estimated to have an equatorial radius of 15 km,about average for a neutron star.The pulsar is slowing in its rotation so that it is expected to come to rest 9.5 ×\times 1010 s in the future.What is the value of the tangential acceleration of an object on the neutron star's equator?

A) 3.0 ×\times 10-5 m/s2
B) 2.0 ×\times 10-9 m/s2
C) 3.2 ×\times 10-10 m/s2
D) 7.6 ×\times 10-7 m/s2
E) 4.8 ×\times 10-6 m/s2
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65
Two objects attract each other gravitationally.If the distance between their centers doubles,the gravitational force

A) is a half.
B) doubles.
C) is a fourth.
D) quadruples.
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66
A 4,000 kg satellite is traveling in a circular orbit 200 km above the surface of the Earth.A 3.00 gram marble is dropped inside the satellite.What is the acceleration of the marble as viewed by the observers inside the satellite? (Me = 5.98 ×\times 1024 kg,Re = 6.37 ×\times 106 m,G = 6.67 ×\times 10-11 N.m2/kg2)

A) 0.00 m/s2
B) 1.62 m/s2
C) 2.64 m/s2
D) 4.90 m/s2
E) 9.24 m/s2
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67
A 35.0 kg child swings on a rope with a length of 6.50 m that is hanging from a tree.At the bottom of the swing the child is moving at a speed of 4.20 m/s.What is the tension in the rope?

A) 95.0 N
B) 438 N
C) 343 N
D) 366 N
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68
A car travels around an unbanked curve at 17 m/s.If the static friction coefficient between the tires and the road is 0.45,what is the minimum radius curve that the car can take at this speed without slipping?

A) 65 m
B) 3.9 m
C) 15 m
D) 8.1 m
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69
A roller coaster has a vertical loop with radius 29.5 m.What is the minimum speed of the roller coaster car can have at the top of the loop if the passengers do not lose contact with the seats?

A) 10.0 m/s
B) 14.0 m/s
C) 17.0 m/s
D) 19.0 m/s
Unlock Deck
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70
A 4,000 kg satellite is traveling in a circular orbit 200 km above the surface of the Earth.A 3.00 gram marble is dropped inside the satellite.What is the acceleration of the marble as viewed by the observers on the Earth? (Me = 5.98 ×\times 1024 kg,Re = 6.37 ×\times 106 m,G = 6.67 ×\times 10-11 N.m2/kg2)

A) 9.80 m/s2
B) 9.24 m/s2
C) 8.90 m/s2
D) 8.62 m/s2
E) 7.95 m/s2
Unlock Deck
Unlock for access to all 87 flashcards in this deck.
Unlock Deck
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71
The Crab Pulsar has a period of length 33.085 ms.It is estimated to have an equatorial radius of 15 km,about average for a neutron star.What is the value of the centripetal acceleration of an object on the surface at the equator of the pulsar?

A) 5.4 ×\times 108 m/s2
B) 2.7 ×\times 108 m/s2
C) 8.9 ×\times 108 m/s2
D) 6.7 ×\times 108 m/s2
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72
Two planets each travel in a circular orbit about a star at radii of ra = 2R and rb = R,respectively.What is the ratio of their periods Ta/Tb?

A) 1.6
B) 2.8
C) 1.3
D) 1.4
E) 2.0
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73
When a girl swings in a tire swing,the tangential acceleration in the rope

A) is the greatest at the highest point of the motion.
B) is the greatest at the lowest point of the motion.
C) is the greatest at a point neither highest nor lowest.
D) is constant.
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74
Two planets travel in circular orbits about a star.The period of planet A is T,while that of planet B is 3T.What is the ratio of the orbital radii,RA/RB?

A) 0.33
B) 0.19
C) 0.48
D) 0.69
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Unlock Deck
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75
The Crab Pulsar has a period that is currently of length 33.085 ms.It is estimated to have an equatorial radius of 15 km,about average for a neutron star.The pulsar is slowing in its rotation so that it is expected to come to rest 9.5 ×\times 1010 s in the future.What is the angular acceleration in this situation?

A) 4.8 ×\times 10-6 s-2
B) 3.0 ×\times 10-5 s-2
C) 7.6 ×\times 10-7 s-2
D) 2.0 ×\times 10-9 s-2
E) 3.2 ×\times 10-10 s-2
Unlock Deck
Unlock for access to all 87 flashcards in this deck.
Unlock Deck
k this deck
76
A car travels around a 35 m radius unbanked curve.The static friction coefficient between the tires and the road is 0.45.What is the maximum speed at which the car can travel without slipping around this corner?

A) 2.8 m/s
B) 27.6 m/s
C) 12.4 m/s
D) 7.5 m/s
Unlock Deck
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Unlock Deck
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77
A car travels at 17 m/s without skidding around a 35 m radius unbanked curve.What is the minimum value of the static friction coefficient between the tires and the road?

A) 0.84
B) 0.050
C) 0.0014
D) 0.024
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Unlock Deck
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78
A figure skater spins at the end of her routine,and slows down with an angular acceleration of 1.2 radians per second squared.If she initially spun with a period of 0.2 seconds,how many turns does she go through while slowing to a stop?

A) 65
B) 6
C) 33
D) 15
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79
The radius of the Earth is r.A satellite of mass 100 kg is at a point 3r above the Earth's surface.What is the satellites' weight?

A) 6.3 N
B) 110 N
C) 61 N
D) 38 N
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80
A 4,000 kg satellite is traveling in a circular orbit 200 km above the surface of the Earth.A 3.00 gram marble is dropped inside the satellite.What is the force of gravity on the marble as viewed by the observers on the Earth? (Me = 5.98 ×\times 1024 kg,Re = 6.37 ×\times 106 m,G = 6.67 ×\times 10-11 N.m2/kg2)

A) 0.405 N
B) 0.362 N
C) 0.277 N
D) 0.202 N
E) 0.185 N
Unlock Deck
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Unlock Deck
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Unlock Deck
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