Using a seven iron, a golfer hits her tee shot to an elevated green 2.6 m higher than the tee. If the initial velocity of the ball was 42.6 m/s and the angle of projection of 65 degrees above the horizontal determine:
a. the horizontal distance the golf ball traveled
b. the velocity of the golf ball at touch down.
Using a seven iron, a golfer hits her tee shot to an elevated green 2.6 m...
A golfer hits a shot to a green that is elevated 2.80 m above the point where the ball is struck. The ball leaves the club at a speed of 19.6 m/s at an angle of 50.0? above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands.
A golfer hits a shot to a green that is elevated 2.60 m above the point where the ball is struck. The ball leaves the club at a speed of 17.6 m/s at an angle of 34.0˚ above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands.
A golfer hits a shot to a green that is elevated 2.80 m above the point where the ball is struck. The ball leaves the club at a speed of 18.9 m/s at an angle of 39.0˚ above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands.
A golfer hits a shot to a green that is elevated 3.20 m above the point where the ball is struck. The ball leaves the club at a speed of 18.4 m/s at an angle of 52.0˚ above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands.
A golfer hits a shot to a green that is elevated 3.30 m above the point where the ball is struck. The ball leaves the club at a speed of 19.0 m/s at an angle of 52.0˚ above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands. (Write on paper)
A golfer hits a shot to a green that is elevated 1.17 m above the point where the ball is struck. The ball leaves the club at a speed of 16.7 m/s at an angle of 38.3o above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands. (g = 9.80 m/s2)
A golfer hits a shot to a green that is elevated 3.00 m above the point where the ball is struck. The ball leaves the club at a speed of 17.7 m/s at an angle of 39.0 above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands V = the tolerance is +/-2%
Problem 20 A golfer hits a shot to a green that is elevated 3.10 m above the point where the ball is struck. The ball leaves the club at a speed of 18.6 m/s at an angle of 35.0˚ above the horizontal. It rises to its maximum height and then falls down to the green. Ignoring air resistance, find the speed of the ball just before it lands.
A golfer hits a ball at at an angle of 56 degrees with an initial speed of 42 m/s from a tee toward an elevated green that is 6 m above his level. What is the total horizontal distance that the ball travels in the air?
A golfer is standing on a tee that is the same height as the green of which the center of the green is 140 yards away from the tee. He hits the ball at an initial velocity of 130 feet/ second at angle of elevation 35 degrees. a) Write parametric equations that describes the position of the ball at time t. b) Find the maximum height of the ball and when it occurs. c) How many feet from the center...