A 62.0-kg hiker ascends a 34.2 meter high hill at a constant speed of 1.20 m/s....
A 62.0-kg hiker ascends a 34.2 meter high hill at a constant speed of 1.20 m/s. Determine the work done by the force of gravity.
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A 62.0-kg hiker ascends a 34.2 meter high hill at a constant
speed of 1.20 m/s....
A bicyclist maintains a constant speed of 4.00 m/s up a hill that is inclined at...
A bicyclist maintains a constant speed of 4.00 m/s up a hill that is inclined at 10.0 degrees with the horizontal. Calculate the work done by the person and the work done by gravity if the bicycle moves a distance of 19.0 m up the hill. The combined mass of the rider and the bike is 88.0 kg. 1) Calculate the work done by gravity. 2) Calculate the work done by the person.
PRACTICE Conserved Force ouiz -Ex tra Work on a backpack: (a) determine the work a hiker...
PRACTICE Conserved Force ouiz -Ex tra Work on a backpack: (a) determine the work a hiker must do on a 10.0 kg backpack to carry it up a hill of height h 20.0 m, as shown below. Determine also (b) the work done by gravity on the backpack, and (c) the net work done on the backpack. Assume the motion is smooth and the hiker and backpack move at constant velocity. H y ng
Problem 40 A bicyclist maintains a constant speed of 4.00 m/s up a hill that is...
Problem 40 A bicyclist maintains a constant speed of 4.00 m/s up a hill that is inclined at 10.0 with the horizontal. Calculate the work done by the person and the work done by gravity if the bicycle moves a distance of 19.0 m up the hill. The combined mass of the rider and the bike is 86.0 kg. 1) Calculate the work done by gravity. (Express your answer to three significant figures.) kJ Submit You currently have 2 submissions...
A 3-kg toy car sits at the highest point of a 13-meter-high hill. The car begins...
A 3-kg toy car sits at the highest point of a 13-meter-high hill. The car begins to roll down the slope from rest. Assuming the car coasts freely, without any friction or air resistance, what is the car's speed at each of the indicated points? Use for the acceleration due to gravity, g - 9.80 m/s* Note: the diagram below is NOT to scale. Car's speed Car's speed Number Number m/s m/s 13 m r's speed Number 2 m 6...
A driver coasts down a hill 200 m high with initial speed vo 35 m/s. The...
A driver coasts down a hill 200 m high with initial speed vo 35 m/s. The road has friction that results in a negative work -1.7 x 10° J. The effect of this is that the total initial energy is reduced by this amount by the time the car reaches the bottom of the hill. Calculate the speed of the car when it reaches the bottom of the hill. The mass of driver and passenger is 1750 kg 59.3 m/s...
A 2.74 kg block is pushed 1.41 m up a vertical wall with a constant speed...
A 2.74 kg block is pushed 1.41 m up a vertical wall with a
constant speed by a constant force of magnitude F applied at an
angle of 66.3 with the horizontal. The acceleration of gravity is
9.8 m/s2. If the coefficient of kinetic friction between the block
and wall 0.415, find the work done by F.
A 2.74 kg block is pushed 1.41 m up a vertical wall with a constant speed by a constant force of magnitude F...
A 1250 kg car drives up a hill that is 16.2 m high. During the drive,...
A 1250 kg car drives up a hill that is 16.2 m high. During the drive, two nonconservative forces do work on the car: (i) the force of friction, and (ii) the force generated by the car's engine. The work done by friction is -2.91 times 10^5 J; the work done by the engine is 6.64 times 10^5 J. Find the change in the car's kinetic energy from the bottom of the hill to the top of the hill.
An elevator weighing 2500 N ascends at a constant speed of 8.0 m/s. How much power...
An elevator weighing 2500 N ascends at a constant speed of 8.0 m/s. How much power must the motor supply to do this?
A 15.0 kg stone slides down a snow-covered hill, leaving point A at a speed of 10.0 m/s
A 15.0 kg stone slides down a snow-covered hill, leaving point A at a speed of 10.0 m/s. There is no friction on the hill between points A and B, but there is friction on the level ground at the bottom of the hill, between B and the wall. After entering the rough horizontal region, the stone travels 100 m and then runs into a very long, light spring with force constant 2.0 N/m. The coefficients of kinetic friction between...
Thor (mass of 62.0 kg) throws a 0.0580 kg snowball with speed of 33.0 m/s at...
Thor (mass of 62.0 kg) throws a 0.0580 kg snowball with speed of 33.0 m/s at Loki. Loki (mass of 60.0 kg), catches the snowball. Both are on skates. Thor is initially moving forward with a speed of 2.60 m/s, and Loki is initially at rest. a) Draw a before and after picture of Thor and the snowball. b) What is the velocity of the Thor after he throws the snowball? c) Draw a before and after picture of Loki...
PRACTICE Conserved Force ouiz -Ex tra Work on a backpack: (a) determine the work a hiker must do on a 10.0 kg backpack to carry it up a hill of height h 20.0 m, as shown below. Determine also (b) the work done by gravity on the backpack, and (c) the net work done on the backpack. Assume the motion is smooth and the hiker and backpack move at constant velocity. H y ng
Problem 40 A bicyclist maintains a constant speed of 4.00 m/s up a hill that is inclined at 10.0 with the horizontal. Calculate the work done by the person and the work done by gravity if the bicycle moves a distance of 19.0 m up the hill. The combined mass of the rider and the bike is 86.0 kg. 1) Calculate the work done by gravity. (Express your answer to three significant figures.) kJ Submit You currently have 2 submissions...
A 3-kg toy car sits at the highest point of a 13-meter-high hill. The car begins to roll down the slope from rest. Assuming the car coasts freely, without any friction or air resistance, what is the car's speed at each of the indicated points? Use for the acceleration due to gravity, g - 9.80 m/s* Note: the diagram below is NOT to scale. Car's speed Car's speed Number Number m/s m/s 13 m r's speed Number 2 m 6...
A driver coasts down a hill 200 m high with initial speed vo 35 m/s. The road has friction that results in a negative work -1.7 x 10° J. The effect of this is that the total initial energy is reduced by this amount by the time the car reaches the bottom of the hill. Calculate the speed of the car when it reaches the bottom of the hill. The mass of driver and passenger is 1750 kg 59.3 m/s...
A 2.74 kg block is pushed 1.41 m up a vertical wall with a
constant speed by a constant force of magnitude F applied at an
angle of 66.3 with the horizontal. The acceleration of gravity is
9.8 m/s2. If the coefficient of kinetic friction between the block
and wall 0.415, find the work done by F.
A 2.74 kg block is pushed 1.41 m up a vertical wall with a constant speed by a constant force of magnitude F...
A 1250 kg car drives up a hill that is 16.2 m high. During the drive, two nonconservative forces do work on the car: (i) the force of friction, and (ii) the force generated by the car's engine. The work done by friction is -2.91 times 10^5 J; the work done by the engine is 6.64 times 10^5 J. Find the change in the car's kinetic energy from the bottom of the hill to the top of the hill.
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