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Review Part A The marble rolls down the track and around a loop-the- loop of radius...
A marble of mass m and radius r rolls along the looped rough track of the...
A marble of mass m and radius r rolls along
the looped rough track of the figure.(Figure 1) Ignore frictional
losses.
Part A
What is the minimum value of the vertical height h that
the marble must drop if it is to reach the highest point of the
loop without leaving the track? Assume r?R.
Express your answer in terms of R.
Part B
What is the minimum value of the vertical height h that
the marble must drop if...
A solid 0.4750-kg ball rolls without slipping down a track toward a loop-the-loop of radius R-...
A solid 0.4750-kg ball rolls without slipping down a track toward a loop-the-loop of radius R- 0.7150 m. What minimum translational speed Vmin must the ball have wher it is a height H- 1.062 m above the bottom of the loop, in order to complete the loop without falling off the track'? Number "min0.294 m/s figure not to scale
A car in an amusement park ride rolls without friction around a track (Figure 1). The...
A car in an amusement park ride rolls without friction around a
track (Figure 1). The car starts from rest at point A at a height h
above the bottom of the loop. Treat the car as a particle.
Figure 1:
PART A:
What is the minimum value of h (in terms of R) such that the car
moves around the loop without falling off at the top (point B)?
PART B:
If the car starts at height h= 4.30...
AP Physics C FRQ 3. A sphere of mass m and radius r is released from...
AP Physics C FRQ
3. A sphere of mass m and radius r is released from rest at the top of a curved track of height H. The sphere travels down the curved track and around a loop of radius R. The sphere rolls without slipping during the entire motion. Point A on the loop is at height R, and point B is at the top of the loop. The rotational inertia of the sphere is 2mr2/s. Express all of...
At an amusement park, a car of mass m rolls without friction around a track as...
At an amusement park, a car of mass m rolls without friction around a track as shown. The car starts from rest at point A, a height h = 3R above the bottom of the loop (R is the radius of the loop). Treat the car as a point-like particle. (a) Draw the free body diagram for the car and find the car’s kinetic energy and normal force acting on the car at the top of the loop (point B)....
A solid marble of mass m = 35 kg and radius r = 4 cm will...
A solid marble of mass m = 35 kg and radius r = 4
cm will roll without slipping along the loop-the-loop
track shown in the figure if it is released from rest somewhere on
the straight section of track. From what minimum height h above the
bottom of the track must the marble be released to ensure that it
does not leave the track at the top of the loop? The radius of the
loop-the-loop is R = 1.05...
A marble rolls around with no friction in a circular loop that has a radius of...
A marble rolls around with no friction in a circular loop that has a radius of 40 cm. At the bottom of the loop, the speed is 7 m/s. A. Calculate the marble's centripetal acceleration and the angular speed when the marble is at the bottom of the loop. B. Using conservation of energy, determine the speed of the marble at the top of the loop. C. Calculate the magnitude of the centripetal acceleration and the angular speed of the...
Constants A thin-walled, hollow spherical shell of mass m and radius r starts from rest and...
Constants A thin-walled, hollow spherical shell of mass m and radius r starts from rest and rolls without slipping down the track shown in the figure (Figure 1). Points A and B are on a circular part of the track having radius R. The diameter of the shell is very small compared to ho and R, and the work done by the rolling friction is negligible Part A What is the minimum speed of the shell at point A for...
A ball of radius r,-0.08 m and mass m =1.5 kg rolls without friction on a...
A ball of radius r,-0.08 m and mass m =1.5 kg rolls without friction on a roller-coaster. From what height should the ball be released so that it completes the loop with radius R - 4.0 m without falling? Consider that height is measured from the track surface to the center of the ball (see figure). Select one: a. h > 10.40 m b.h> 11.25 m c. h > 11.33 m d.h> 12.66 m
Problem 9 m,r A solid ball of mass m and radius r sits at rest at the top of a hill of height H l...
Problem 9 m,r A solid ball of mass m and radius r sits at rest at the top of a hill of height H leading to a circular loop-the loop. The center of mass of the ball will move in a circle of radius R if it goes around the loop. The moment of inertia of a solid ball is Ibull--mr. (a) Find an expression for the minimum height H for which the ball barely goes around the loop, staying...
A marble of mass m and radius r rolls along
the looped rough track of the figure.(Figure 1) Ignore frictional
losses.
Part A
What is the minimum value of the vertical height h that
the marble must drop if it is to reach the highest point of the
loop without leaving the track? Assume r?R.
Express your answer in terms of R.
Part B
What is the minimum value of the vertical height h that
the marble must drop if...
A solid 0.4750-kg ball rolls without slipping down a track toward a loop-the-loop of radius R- 0.7150 m. What minimum translational speed Vmin must the ball have wher it is a height H- 1.062 m above the bottom of the loop, in order to complete the loop without falling off the track'? Number "min0.294 m/s figure not to scale
A car in an amusement park ride rolls without friction around a
track (Figure 1). The car starts from rest at point A at a height h
above the bottom of the loop. Treat the car as a particle.
Figure 1:
PART A:
What is the minimum value of h (in terms of R) such that the car
moves around the loop without falling off at the top (point B)?
PART B:
If the car starts at height h= 4.30...
AP Physics C FRQ
3. A sphere of mass m and radius r is released from rest at the top of a curved track of height H. The sphere travels down the curved track and around a loop of radius R. The sphere rolls without slipping during the entire motion. Point A on the loop is at height R, and point B is at the top of the loop. The rotational inertia of the sphere is 2mr2/s. Express all of...
A solid marble of mass m = 35 kg and radius r = 4
cm will roll without slipping along the loop-the-loop
track shown in the figure if it is released from rest somewhere on
the straight section of track. From what minimum height h above the
bottom of the track must the marble be released to ensure that it
does not leave the track at the top of the loop? The radius of the
loop-the-loop is R = 1.05...
Constants A thin-walled, hollow spherical shell of mass m and radius r starts from rest and rolls without slipping down the track shown in the figure (Figure 1). Points A and B are on a circular part of the track having radius R. The diameter of the shell is very small compared to ho and R, and the work done by the rolling friction is negligible Part A What is the minimum speed of the shell at point A for...
A ball of radius r,-0.08 m and mass m =1.5 kg rolls without friction on a roller-coaster. From what height should the ball be released so that it completes the loop with radius R - 4.0 m without falling? Consider that height is measured from the track surface to the center of the ball (see figure). Select one: a. h > 10.40 m b.h> 11.25 m c. h > 11.33 m d.h> 12.66 m
Problem 9 m,r A solid ball of mass m and radius r sits at rest at the top of a hill of height H leading to a circular loop-the loop. The center of mass of the ball will move in a circle of radius R if it goes around the loop. The moment of inertia of a solid ball is Ibull--mr. (a) Find an expression for the minimum height H for which the ball barely goes around the loop, staying...
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