a small sphere of radius (r) =1.5cm rolls without slipping on
the track whose radius (R) =26cm. the sphere starts rolling at a
height (R) above the bottom of the track. when it leaves the track
after passing through an angle of 135 degrees.
a. at what distance D from the base of the track will the sphere
hit the ground.
In this question, why the y component of the velocity is not vsin(theta) but vcos(theta). Also why the x component is not vos(theta) but vsin(theta). Please EXPLAIN THIS PART CLEANLY.
a small sphere of radius (r) =1.5cm rolls without slipping on the track whose radius (R)...
a small sphere of radius (r) =1.5cm rolls without slipping on the track whose radius (R) =26cm. the sphere starts rolling at a height (R) above the bottom of the track. when it leaves the track after passing through an angle of 135 degrees. a. at what distance D from the base of the track will the sphere hit the ground. Please specify how you find x and y components of the velocity.
A solid sphere of radius r0=1.5cm rolls without slipping inside a circular track of radius R0=26cm starting from rest at a height R0 above the bottom of the track. When it leaves the track passing through an angle of 1350 as shown in the figure below, (a) what will be its speed when it is launching from the track, and (b) at what distance D from the base of the track will the sphere hit the ground? 135 Ro
Problem 4. A solid sphere of mass m and radius r rolls without slipping along the track shown below. It starts from rest with the lowest point of the sphere at height h 3R above the bottom of the loop of radius R, much larger than r. Point P is on the track and it is R above the bottom of the loop. The moment of inertia of the ball about an axis through its center is I-2/S mr. The...
A sphere of mass M and radius R starts at rest and rolls without slipping down an incline and embeds itself in a hollow cube at the bottom that is only 1/5 its mass. If the incline is h tall and the table has a height of D from the floor, at what horizontal distance from the table do the two objects land? The cube/sphere combination leaves the incline moving horizontally.
A small solid sphere with radius 0.15 cm and mass 0.15 g rolls without slipping on the inside of a large fixed hemisphere with radius 0.10 m and a vertical axis of symmetry. The sphere starts at the top from rest. (a) What is its kinetic energy at the bottom? (b) What fraction of its kinetic energy at the bottom is associated with rotation about an axis through its center of mass? (c) What is the magnitude of the normal...
A small solid sphere with radius 0.46 cm and mass 0.56 g rolls without slipping on the inside of a large fixed hemisphere with radius 0.16 m and a vertical axis of symmetry. The sphere starts at the top from rest. (a) What is its kinetic energy at the bottom? (b) What fraction of its kinetic energy at the bottom is associated with rotation about an axis through its center of mass? (c) What is the magnitude of the normal...
A 170-N sphere 0.20 m in radius rolls without slipping 6.0 m down a ramp that is inclined at 28° with the horizontal. What is the angular speed of the sphere at the bottom of the slope if it starts from rest?
A 330-N sphere 0.20 m in radius rolls without slipping 6.0 m down a ramp that is inclined at 40° with the horizontal. What is the angular speed of the sphere at the bottom of the slope if it starts from rest?
A 170-N sphere 0.20 m in radius rolls without slipping 6.0 m down a ramp that is inclined at 25° with the horizontal. What is the angular speed of the sphere at the bottom of the slope if it starts from rest? rad/s
A 310-N sphere 0.20 m in radius rolls without slipping 6.0 m down a ramp that is inclined at 31° with the horizontal. What is the angular speed of the sphere at the bottom of the slope if it starts from rest? X rad/s