show work and explain please. 2.- A ball rolls down an incline and off a horizontal...
Projectile Motion and Motion Diagrams 3.2 A ball rolls down a long ramp to a shoot where it is released as a projectile with an initial speed of 20 m/s at an angel of 42° above horizontal and 4.0 m above the ground. See diagram. BALL RAMP GROUND A. Draw a complete motiongrantee the motion of the ball from it leaving the shoot until reaching the ground. B What is the maximum height above pre ground reached by the ball?...
1. A solid is rolling without slipping down an incline. At the bottom of the incline there is a ramp that creates a "quarter-pipe". A quarter pipe is one quarter of a circle, when viewed from the side. The sphere is released from rest, 4 meters above the bottom of the incline. The sphere rolls without slipping down the incline and back up the quarter-pipe. Thesphere leaves trhe quarter-pipe 30 cm above the bottom of the incline and is launched...
A 0.15 kg ball rolls down an incline. The ball starts at a height of 0.8 m and the length of the path it takes is 2.5 m. What is the speed of the ball at the bottom of the incline if friction and air resistance are not important?
Group Activity: Ball rolling down ramp and off cliff As shown in the figure below, a hollow ball with a mass m 5.00 kg and radius r -30.0cm starts from rest and rolls a distance of 1.2 m down a 30° ramp, before reaching a flat section at the bottom of the ramp. The ball then rolls along the flat section for 1.0 m before rolling off a 2.5 m-high cliff. The ball lands a distance d from the bottom...
In a scene from a television show, a van rolls down an incline and off a vertical cliff, falling into a river below. The van starts from rest and rolls down the incline, which makes an gle of 24.0° below the horizontal, with constant acceleration of 3.82 m/s2. After rolling down the incline a distance of 40.0 m, it reaches the u edge of the cliff which is 30.0 m above the river. (a) How much time (in s) does...
please explain the answer 2) A ball is dropped from rest at a height H. At height h (below H) the ball bounces off a surface with no loss in speed. The surface is tilted at 45°, so the ball bounces off horizon- tally. Derive an expression for the distance the ball travels in the horizontal direction. Plot the distance traveled in the horizontal direction as a function of h where h varies between O and H. 3) Imagine an...
In a scene from a television show, a truck rolls down an incline and off a vertical cliff, falling into a river below. The truck starts from rest and rolls down the incline, which makes an angle of 24.0° below the horizontal, with a constant acceleration of 3.82 m/s2. After rolling down the incline a distance of 30.0 m, it reaches the edge of the cliff, which is 40.0 m above the river. (a) How much time (in s) does...
In a scene from a television show, a truck rolls down an incline and off a vertical cliff, falling into a river below. The truck starts from rest and rolls down the incline, which makes an angle of 24.0° below the horizontal, with a constant acceleration of 3.82 m/s2. After rolling down the incline a distance of 30.0 m, it reaches the edge of the cliff, which is 40.0 m above the river. (a) How much time (in s) does...
PHYS 117 W519-Fall 2019 Q11.2 A cylinder rolls, without slipping down an incline that has an angle of 15 degrees. The cylinder has a mass of and 0.75 kg a radius of 5.0 cm. a) Which of the following forces exert(s) a torque on the cylinder about its center? A) The weight of the cylinder B) The normal force exerted by the ramp C) The friction force exerted by the ramp D) Other forces: Explain your answer with a free-body...
1) A solid ball of mass M and radius R rolls without slipping down a hill with slope tan θ. (That is θ is the angle of the hill relative to the horizontal direction.) What is the static frictional force acting on it? It is possible to solve this question in a fairly simple way using two ingredients: a) As derived in the worksheet when an object of moment of inertia I, mass M and radius R starts at rest...