A 57.0-kg person jumps from rest off a 2.20-m-high tower straight down into the water. Neglect...

Please determine the magnitude of the average force that the water exerts on the diver. Thank...

Please determine the magnitude of the average force that the water exerts on the diver. Thank you! A 59.0-kg person jumps from rest off a 2.80-m-high tower straight down into the water. Neglect air resistance during the descent. She comes to rest 1.40 m under the surface of the water. Determine the magnitude of the average force that the water exerts on the diver. This force is non-conservative.

1 a) Starting from rest, a 50 Kg person dives into water from a height of...

1 a) Starting from rest, a 50 Kg person dives into water from a height of 80 m above the water surface. Air resistance is negligible. (Use g= 10 m/s2) Calculate (A) the diver’s KE just before striking the water surface (B) the velocity of the diver just before striking the water (C) the work done by gravitational force on the diver (D) the power delivered by gravitational force on the diver b) A ball of mass m=0.2 Kg sitting...

1. An 80kg person dives off of a 20m high cliff with an upwards velocity of...

1. An 80kg person dives off of a 20m high cliff with an upwards velocity of 15 m/s into the water below. Neglect air resistance. a) How much potential energy does he have when he first jumps off the cliff?  * b) How much kinetic energy does he have when he first jumps off the cliff? * c) We can neglect the potential energy the diver has when he is just about the hit the water. Using the conservation of mechanical...

1.A boy jumps from rest, straight down from the top of a cliff. He falls halfway...

1.A boy jumps from rest, straight down from the top of a cliff. He falls halfway down to the water below in 0.756 s. How much time passes during his entire trip from the top down to the water? Ignore air resistance. t = ? 2.An astronaut on a distant planet wants to determine its acceleration due to gravity. The astronaut throws a rock straight up with a velocity of +15.7 m/s and measures a time of 10.5 s before...

A 55.8 kg person skis down a 10 m tall hill. They start from rest at...

A 55.8 kg person skis down a 10 m tall hill. They start from rest at the top of the hill, but friction and air resistance both affect the skiers motion. If friction and air resistance have the effect of dissipating 1,027 J of energy away from the skier over the entire length of the hill, how fast are they traveling when they reach the bottom? Report your answer in meters per second, rounded to one decimal place

Once the 2,500-m swim is completed, Sarah [mass mCh = 42 kg] wants to impress Sasha...

Once the 2,500-m swim is completed, Sarah [mass mCh = 42 kg] wants to impress Sasha [mC = 34 kg] and jumps off the 10-m platform. Sarah jumps upwards and reaches the maximum height of 2.5-m above the platform before turning around and falling towards the water. We only consider the motion along the vertical. a) Find the velocity [vector] of Sarah as she jumps off the spring board. b) Find the velocity [vector!] of Sarah as she hits the...

Jason takes off from rest down a 50 m tall, 10.0° degree slope on his jet-powered...

Jason takes off from rest down a 50 m tall, 10.0° degree slope on his jet-powered skis. The skis have a thrust force of 280 N, directed so that the force pushes Jason forward along the slope. The combined mass of skis and Jason is 50.0 kg. Jason’s speed at the bottom of the hill is 40.0 m/s. What is the magnitude of the frictional force that must be acting on the skis?

A 50.0-kg skier starting from rest travels 200 m down a hill that has a 60.0°...

A 50.0-kg skier starting from rest travels 200 m down a hill that has a 60.0° slope and a uniform surface. When the skier reaches the bottom of the hill, her speed is 20.0 m/s. What is the magnitude of the friction force if the skier travels directly down the hill? Please show work. A. 375 N B. 55.3 N C. 89.4 N D. 50.0 N E. 20.7 N

A 79.0-kg skier starts from rest and slides down a 36.0-m frictionless slope that is inclined...

A 79.0-kg skier starts from rest and slides down a 36.0-m frictionless slope that is inclined at an angle of 15.0° with the horizontal. Ignore air resistance. (a) Calculate the work done by gravity on the skier and the work done by the normal force on the skier. Work done by gravity? Work done by normal force? (b) If the slope is not frictionless so that the skier has a final velocity of 4 m/s, calculate the work done by...

1. Motion of an object depends on its velocity only. True False 2. A car with...

1. Motion of an object depends on its velocity only. True False 2. A car with a mass of 2500 kg is traveling at a speed of 30 m/s due east. Choose the most appropriate answer to its momentum. a. 30 m/s due east b. 30 m/s c. 75,000 kgm/s d. 75,000 kgm/s due east 3. A car is traveling at 70 mph and then is involved in an accident with a head-on collision into a very solid wall. As...