Mass of the ball: m = 0.6115 kg ± 0.0001 kg, g = 9.7953 m/s2): GRAPH...

A 2.33 kg ball is dropped from a height of 3 m.  The ball then bounces back...

A 2.33 kg ball is dropped from a height of 3 m.  The ball then bounces back upward a distance of 2.2 m. How much energy was lost in the collision with the ground? 50.2 J 18.3 J 68.5 J 118.7 J A 2.33 kg ball is dropped from a height of 3 m.  The ball then bounces back upward a distance of 2.2 m. How much momentum does the ball have immediately after bouncing off the ground? 5.13 kg m/s 21.6...

A 6.76 kg bowling ball is moving down a frictionless and bumpy hill. Its initial speed...

A 6.76 kg bowling ball is moving down a frictionless and bumpy hill. Its initial speed is 1.48 m/s. 1) What is the magnitude of its initial momentum? (in units of kg m/s). True or false 2) As the above ball frictionlessly moves down the hill, its potential energy and kinetic energy increase. 3) Its initial kinetic energy is: A) 6.76 J, B) 7.40 J, C) 20.0 J, D) 66.2 J, or E) none of these 4) The initial elevation...

A ball with mass of 0.050 kg is dropped from a height of  h1 = 1 .5...

A ball with mass of 0.050 kg is dropped from a height of  h1 = 1 .5 m. It collides with the floor, then bounces up to a height of h2 = 1.0 m. The Collison takes 0.015 s. Use part e to Calculate impulse ( J) ? Write the formula first . Use part f to Calculate the average force acting ( F) on the ball by the floor during the collision? *Write the formula Calculate the change in the...

A 6.85 kg bowling ball moving at 10.0 m/s collides with a 1.60 kg bowling pin,...

A 6.85 kg bowling ball moving at 10.0 m/s collides with a 1.60 kg bowling pin, scattering it with a speed of 8.00 m/s and at an angle of 32.0° with respect to the initial direction of the bowling ball. ( a) Calculate the final velocity (magnitude in m/s and direction in degrees counterclockwise from the original direction) of the bowling ball. ______magnitude m/s __________direction ° counterclockwise from the original direction of the bowling ball (b) Ignoring rotation, what was...

A bowling ball of mass 7.23 kg and radius 10.3 cm rolls without slipping down a lane at 2.90 m/s . Calculate...

A bowling ball of mass 7.23 kg and radius 10.3 cm rolls without slipping down a lane at 2.90 m/s . Calculate its total kinetic energy. Express your answer using three significant figures and include the appropriate units

A ball with mass of 0.025 kg is thrown horizontally with velocity of 1.5 m/s toward...

A ball with mass of 0.025 kg is thrown horizontally with velocity of 1.5 m/s toward a wall in positive X direction. It collides with the wall, then bounces back to the left with velocity of 1.0 m. The Collison takes 0.015s. What is the total initial momentum? b) What is the total final momentum? c)What is change in momentum? d)What is the impulse? e) What is the average force acting on the wall by the ball during the collision?...

A 0.32-kg ball is moving horizontally at 30 m/s just before suddenly bouncing off a wall...

A 0.32-kg ball is moving horizontally at 30 m/s just before suddenly bouncing off a wall Just after the bounce, it is moving horizontally at 25 m/s but in the opposite direction. (a) What is the magnitude of the change in momentum of the ball during the bounce? (b) What percentage of the ball's original kinetic energy was lost in the collision? please show work on paper

A ball of mass 0.40 kg is fired with velocity 200 m/s into the barrel of...

A ball of mass 0.40 kg is fired with velocity 200 m/s into the barrel of a spring gun of mass 1.5 kg initially at rest on a frictionless surface. The ball sticks in the barrel at the point of maximum compression of the spring. No energy is lost to friction. What fraction of the ball's initial kinetic energy is stored in the spring?

A ball with mass of m=0.5 (Kg) has velocity of V1= 8 m/s and moves with...

A ball with mass of m=0.5 (Kg) has velocity of V1= 8 m/s and moves with the angle of 45 degrees with respect to vertical line. It hits the ground and bounce back with V2= 6 m/s with the same angle with respect to ground . What is the change in ball's momentum?

A hoop (rotational inertia ) of mass 2.00 kg and radius 0.50 m is rolling at...

A hoop (rotational inertia ) of mass 2.00 kg and radius 0.50 m is rolling at a centerof-mass speed of 2.50 m/s. An external force does 75.0 J of a positive work on the hoop. (a) Calculate the initial total kinetic energy KE and (b) find the new speed of the hoop. (hint: W = ∆KE = KEf − KEi , KE = KEtrans + KErot, w = v/R)