A ball is projected with v= 50 m/s at 32 degree .
Find V1y , V1x ,
A ball was thrown with an initial velocity of 12 m/s at 50 degree above the horizontal level. (a) what is the ball velocity after 1.5 s? (b) What is the position of the ball after 1s? (c) what is the range of the ball?
Given a billiard ball hits a fixed horizontal surface with a velocity v = 32 m/s at an angle of 60 degrees with the horizontal Further, the coefficient of restitution is given to be 0.8. Find the magnitude of the rebound velocity v in m/s. 60°
A ball is projected horizontally with an initial speed of 5.0 m/s. Find it’s position and velocity at t= 2.5 s
only question #9
8. Russell Wilson Question Given y1 = y2 = 1.8 m, x1 = 0, x2 = ?, V1x = vo cos(6), v1y = V0 sin(e), VO = 22.35 m/s, initial @ = 30° Russell Wilson Doug Baldwin neglect air, neglect spin 2 A. Calculate t the time for the ball to reach Baldwin. Calculate x2: the distance between Wilson and Baldwin. C. Calculate the final velocity of the ball right before Baldwin catches it. D. Maximum range...
A ball is launched at a 25 degree at v= 25m/s form a height of 60 m at the edge of building. A. Max height of the ball about the point of firing? B. Total time it takes to hit ground? C. Velocity at max height? D.acceleration at max height E.final velocity, horizontal direction? F. Final velocity
A ball is thrown with a velocity of 40 m/s at an angle 45 degree with the ground. Calculate the maximum height which the ball can reach. Assume that the acceleration due to gravity, g=10 m/s on the surface of the earth
A ball is thrown straight up with an initial speed of v m/s. The ball was released 1.2 m above the ground, but when it returns back down, it falls into a hole 14.2 m deep. If the ball’s speed at the bottom of the hole is 28 m/s, what was the initial speed v (in m/s) of the ball?
If a 5-kg bowling ball is projected upward with a velocity of 2.0 m/s, then what is the recoil velocity of the Earth (mass= 6x10^24 kg).
A ball hits the wall at a 45-degree angle and is travelling at 3 m/s. If the coefficient of restitution is approximately 0.5, what is the magnitude of the velocity of the ball after bouncing off the wall?
2D Kinematics problem Initial Speed = 3.92 m/s 50 degree Angle 1.045m above the ground Calculate the expected distance traveled by the ball.