a tennis ball is served in a horizontal direction and at a vertical position 2.4 m...

In a tennis match, a tennis player serves the ball from 2.37 m above the ground...

In a tennis match, a tennis player serves the ball from 2.37 m above the ground at an angle of 5.0 degrees below horizontal. The ball is served from the baseline 12.0 m from the net. (a) If the ball clears the 0.90 m high net by 8.0 cm, how fast was the ball served? (b) Given that the opponent’s baseline is also 12.0 m beyond the net, does the ball land “in” or “out”, and by how much? (Assume...

A tennis ball is hit with a vertical speed of 35 m/s and a horizontal speed...

A tennis ball is hit with a vertical speed of 35 m/s and a horizontal speed of 20 m/s. How long will the ball remain in the air?

A tennis player hits a ball 2.0 m above the ground. The ball leaves his racquet...

A tennis player hits a ball 2.0 m above the ground. The ball leaves his racquet with a speed of 20 m/s at an angle 5.0 ∘ above the horizontal. The horizontal distance to the net is 7.0 m, and the net is 1.0 m high. Does the ball clear the net? Thank you so much in advance!

A ball is kicked with an initial velocity of 20 m/s in the horizontal direction and...

A ball is kicked with an initial velocity of 20 m/s in the horizontal direction and 11 m/s in the vertical direction. (Assume the ball is kicked from the ground.) At what speed (in m/s) does the ball hit the ground?

You stand 17.5 m from a wall holding a tennis ball. You throw the tennis ball...

You stand 17.5 m from a wall holding a tennis ball. You throw the tennis ball at the wall at an angle of 40.5∘ from the ground with an initial speed of 26.5 m/s. At what height above its initial position does the tennis ball hit the wall? Ignore any effects of air resistance.

During warm ups, a tennis player hits a ball which is 2.0 m above the ground....

During warm ups, a tennis player hits a ball which is 2.0 m above the ground. The ball leaves his racquet with a speed of 16.0 m/s at an angle 4.8 ∘above the horizontal. The horizontal distance to the net is 7.0 m, and the net is 1.0 m high. Assume that the path of the ball, as observed from a bird's eye view, is parallel to the long lines of the tennis court. A) At what time, after being...

2 tennis balls slide in a horizontal direction towards each other. Tennis A has mass of...

2 tennis balls slide in a horizontal direction towards each other. Tennis A has mass of 0.25 kg and velocity of 10 m/s. Tennis Ball B has a mass of .035 kg and initial velocity of 26 m/s. Eventually both tennis ball collide and Tennis Ball B has speed of 6m/s at angle 150. Solve for the velocity magnitude and direction after the collision.

During a tennis match, a player serves the ball at 26.6 m/s, with the center of...

During a tennis match, a player serves the ball at 26.6 m/s, with the center of the ball leaving the racquet horizontally 2.32 m above the court surface. The net is 12.0 m away and 0.900 m high. When the ball reaches the net, (a) what is the distance between the center of the ball and the top of the net? (b) Suppose that, instead, the ball is served as before but now it leaves the racquet at 5.00° below...

During a tennis match, a player serves the ball at 25.3 m/s, with the center of...

During a tennis match, a player serves the ball at 25.3 m/s, with the center of the ball leaving the racquet horizontally 2.58 m above the court surface. The net is 12.0 m away and 0.900 m high. When the ball reaches the net, (a) what is the distance between the center of the ball and the top of the net? (b) Suppose that, instead, the ball is served as before but now it leaves the racquet at 5.00° below...

During a tennis match, a player serves the ball at 29.3 m/s, with the center of...

During a tennis match, a player serves the ball at 29.3 m/s, with the center of the ball leaving the racquet horizontally 2.37 m above the court surface. The net is 12.0 m away and 0.900 m high. When the ball reaches the net, (a) what is the distance between the center of the ball and the top of the net? (b) Suppose that, instead, the ball is served as before but now it leaves the racquet at 5.00° below...