A 68.0 kg diver is 3.30 m above the water, falling at speed of 9.10 m/s....

A 55-kg diver stands at the end of a diving board located 10 m above the...

A 55-kg diver stands at the end of a diving board located 10 m above the water level. The diving board is held down at one end by an anchor bolt. The fulcrum is located at 1.4 m from the bolt and the total length of the board is 3.9 m. Draw a free body diagram showing the forces acting on the diver. Calculate the torque that she exerts on the board with respect to the fulcrum. Neglect the mass...

A 55-kg diver stands at the end of a diving board located 10 m above the...

A 55-kg diver stands at the end of a diving board located 10 m above the water level. The diving board is held down at one end by an anchor bolt. The fulcrum is located at 1.4 m from the bolt and the total length of the board is 3.9 m.   a) Draw a free body diagram showing the forces acting on the diver. (b) Calculate the torque that she exerts on the board with respect to the fulcrum. Neglect...

Q2. A 55-kg diver stands at the end of a diving board located 10 m above...

Q2. A 55-kg diver stands at the end of a diving board located 10 m above the water level. The diving board is held down at one end by an anchor bolt. The fulcrum is located at 1.4 m from the bolt and the total length of the board is 3.9 m. (a) Draw a free body diagram showing the forces acting on the diver. (b) Calculate the torque that she exerts on the board with respect to the fulcrum....

A diver springs upward from a board that is 2.90 m above the water. At the...

A diver springs upward from a board that is 2.90 m above the water. At the instant she contacts the water her speed is 11.0 m/s and her body makes an angle of 62.7 ° with respect to the horizontal surface of the water. Determine her initial velocity, both (a) magnitude and (b) direction.

A 48 kg pole vaulter running at 10 m/s vaults over the bar. Her speed when...

A 48 kg pole vaulter running at 10 m/s vaults over the bar. Her speed when she is above the bar is 1.3 m/s. Neglect air resistance, as well as any energy absorbed by the pole, and determine her altitude as she crosses the bar.

A diver springs upward from a board that is 2.84 meters above the water. At the...

A diver springs upward from a board that is 2.84 meters above the water. At the instant she contacts the water her speed is 8.67 m/s and her body makes an angle of 73.9° with respect to the horizontal surface of the water. Determine her initial velocity.

A diver springs upward from a board that is 3.01 meters above the water. At the...

A diver springs upward from a board that is 3.01 meters above the water. At the instant she contacts the water her speed is 9.37 m/s and her body makes an angle of 76.3° with respect to the horizontal surface of the water. Determine her initial velocity.

A diver springs upward from a board that is 3.20 meters above the water. At the...

A diver springs upward from a board that is 3.20 meters above the water. At the instant she contacts the water her speed is 8.75 m/s and her body makes an angle of 79.4° with respect to the horizontal surface of the water. Determine her initial velocity.

A diver springs upward from a board that is 3.03 meters above the water. At the...

A diver springs upward from a board that is 3.03 meters above the water. At the instant she contacts the water her speed is 8.98 m/s and her body makes an angle of 73.7° with respect to the horizontal surface of the water. Determine her initial velocity. Please explain how to use cos and sin.

A 52.0-kg skater is traveling due east at a speed of 3.30 m/s. A 69.5-kg skater...

A 52.0-kg skater is traveling due east at a speed of 3.30 m/s. A 69.5-kg skater is moving due south at a speed of 7.45 m/s. They collide and hold on to each other after the collision, managing to move off at an angle ? south of east, with a speed of vf. Find the following. (a) the angle ? ° (b) the speed vf, assuming that friction can be ignored m/s