1. (25 points) The tennis player serves the ball at an angle of 0 = 4°...
X + C H The Tennis Player Serves The Microsoft Word- ME 215-Lect x Micr rd-ME 215-Lect 387 X Chaster Edit View Help File Problem 16 (of 32) Give your final answer(s) to three decimal places. Check your units. Do not round intemediate answers. If the tennis player serves the ball borizostally (8-0), calculate its velocityv# the center of the ball clears the 36-in net by 4 in. Also find the distance : from the net to the point where...
During a tennis match, a player serves the ball at 24.4 m/s, with the center of the ball leaving the racquet horizontally 2.51 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 25.6 m/s, with the center of the ball leaving the racquet horizontally 2.52 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 24.0 m/s, with the center of the ball leaving the racquet horizontally 2.45 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...
A tennis player serves a tennis ball such that it is moving horizontally when it leaves the racquet. When the ball travels a horizontal distance of 16 m, it has dropped 59 cm from its original height when it left the racquet. What was the initial speed, in m/s, of the tennis ball? (Neglect air resistance.)
During a tennis match, a player serves the ball at 27.1 m/s, with the center of the ball leaving the racquet horizontally 2.31 m above the court surface. The net is 120 mway and 0.900 m high. When the ball reaches the met, (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 racqueta 5.00 below the horontal....
During a tennis match, a player serves the ball at 24.8 m/s, with the center of the ball leaving the racquet horizontally 2.36 m above the court surface. The net is 12 m away and 0.90 m high. (a) When the ball reaches the net, does the ball clear it? Yes No (b) What is the distance between the center of the ball and the top of the net? Suppose that, instead, the ball is served as before but now...
A player hits a tennis ball close to the ground with an initial velocity of 32 m/s at an angle 35˚ from the horizontal. Assume air resistance is negligible. a) If the opponent doesn't hit the ball, how long will the ball be in the air? b) What is the ball's velocity at the highest point in its trajectory? c) How high will the ball go? Please show all work and steps
Suppose a tennis player hits a ball when it is at height of 1.2 meters giving it a velocity pf 15 m/s at an angle of 10 degrees to the horizontal. Find when and where the ball will hit the ground.
Serving at a speed of 158 km/h, a tennis player hits the ball at a height of 2.18 m and an angle θ below the horizontal. The service line is 10.1 m from the net, which is 0.95 m high. What is the angle θ in degrees such that the ball just crosses the net? Give a positive value for the angle.