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Conservation of energy
A 2.8 kg block slides over the smooth, icy hill as shown. The...
A block of mass m slides up and down over a series of smooth icy hills....
A block of mass m slides up and down over a series of smooth icy hills. The top of the first hill is 7.0 m high from the ground level and the speed of the block at the top of the hill is 15m/s. Determine speed of the block when it is at the top of the following hill which is 3.0 m high from the zero level. A) 17 m/s B) 14m/s C) 10 m/s D) 35 m/s
A m= 5.0 kg block slides on a flat, smooth track with an initial speed of...
A m= 5.0 kg block slides on a flat, smooth track with an
initial speed of vi= 6 m/s. The block slides down a rough incline
that has a vertical height of h = 4 m onto another flat, smooth
track. The block’s final speed is vf= 10 m/s. How much energy is
lost to friction on the block as it slid down the incline?
An m 5.0 kg block slides on a flat, smooth track with an initial speed...
A 90 kg skier at the top of a 400 m icy hill slides down, through...
A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (µk= 0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? b) (5 points) How high will he get of the ground (max height (m)) ?
Conservation of energy A child on a sled slides from rest from the top of a...
Conservation of energy A child on a sled slides from rest from the top of a 20.0 m high very slippery hill. The total mass of the child and the sled is 30.0 kg. Treat the bottom of the hill as a reference. a. b. c. d. e. What is the kinetic energy of the child and sled at the top? What is the potential energy at the top? What is the potential energy at the bottom? What is the...
A 90 kg skier at the top of a 400 m icy hill slides down, through...
A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (uk-0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? b) (5 points) How high will he get of the ground (max height (m)) ? 400 m 20 m 45° X 20 m
A 90 kg skier at the top of a 400 m icy hill slides down, through...
A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (uk= 0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? 400 m 20 m 45° X 20 m b) (5 points) How high will he get of the ground (max height (m)) ?
QUESTION 16 A 90 kg skier at the top of a 400 m icy hill slides...
QUESTION 16 A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (uk-0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? 1400 m 20 m 45° 20 m b) (5 points) How high will he get of the ground (max height (m)) ?
A 90 kg skier at the top of a 400 m icy hill slides down, through...
A 90 kg skier at the top of a
400 m icy hill slides down, through a 20 m patch of snow (µk= 0.25)
and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How
far from the edge of the ramp does the skier land (m)? b) (5
points) How high will he get of the ground (max height (m)) ?
Ho 400 m 20 m 45° X 20 m
Question 4 A 0.5 kg block slides on a frictionless surface onto a cart that has...
Question 4 A 0.5 kg block slides on a frictionless surface onto a cart that has a rough surface. After sliding on the rough surface (uk = 0.30) of the cart over some distance, the block and the cart will come to the same speed of 0.4 m/s. The cart rolls frictionlessly. 0.5 kg 2 kg 0.4 m/s a. Is this a collision? If so, what kind of collision is it? b. What is the initial speed of the block...
Physics I. Unit : potential energy and conservation of energy. In the figure, a 4.1 kg...
Physics I. Unit : potential energy and conservation of
energy.
In the figure, a 4.1 kg block slides along a track from one level to a higher level after passing through an intermediate valley. The track is frictionless until the block reached the higher level. There a frictional force stops the block in a distance d. The block's initial speed is v_0 = 6.3 m/s, the height difference is h = 1.1 m, and mu_k = 0.621. Find d.
A m= 5.0 kg block slides on a flat, smooth track with an
initial speed of vi= 6 m/s. The block slides down a rough incline
that has a vertical height of h = 4 m onto another flat, smooth
track. The block’s final speed is vf= 10 m/s. How much energy is
lost to friction on the block as it slid down the incline?
An m 5.0 kg block slides on a flat, smooth track with an initial speed...
Conservation of energy A child on a sled slides from rest from the top of a 20.0 m high very slippery hill. The total mass of the child and the sled is 30.0 kg. Treat the bottom of the hill as a reference. a. b. c. d. e. What is the kinetic energy of the child and sled at the top? What is the potential energy at the top? What is the potential energy at the bottom? What is the...
A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (uk-0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? b) (5 points) How high will he get of the ground (max height (m)) ? 400 m 20 m 45° X 20 m
A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (uk= 0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? 400 m 20 m 45° X 20 m b) (5 points) How high will he get of the ground (max height (m)) ?
QUESTION 16 A 90 kg skier at the top of a 400 m icy hill slides down, through a 20 m patch of snow (uk-0.25) and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How far from the edge of the ramp does the skier land (m)? 1400 m 20 m 45° 20 m b) (5 points) How high will he get of the ground (max height (m)) ?
A 90 kg skier at the top of a
400 m icy hill slides down, through a 20 m patch of snow (µk= 0.25)
and hits a 20 m long jump ramp at a 45° incline. a) (10 points) How
far from the edge of the ramp does the skier land (m)? b) (5
points) How high will he get of the ground (max height (m)) ?
Ho 400 m 20 m 45° X 20 m
Question 4 A 0.5 kg block slides on a frictionless surface onto a cart that has a rough surface. After sliding on the rough surface (uk = 0.30) of the cart over some distance, the block and the cart will come to the same speed of 0.4 m/s. The cart rolls frictionlessly. 0.5 kg 2 kg 0.4 m/s a. Is this a collision? If so, what kind of collision is it? b. What is the initial speed of the block...
Physics I. Unit : potential energy and conservation of
energy.
In the figure, a 4.1 kg block slides along a track from one level to a higher level after passing through an intermediate valley. The track is frictionless until the block reached the higher level. There a frictional force stops the block in a distance d. The block's initial speed is v_0 = 6.3 m/s, the height difference is h = 1.1 m, and mu_k = 0.621. Find d.
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