A 24 kg child on a 3.2 kg sled is sliding at 6.0 m/s, with negligible friction, along an icy, horizontal surface. As the sled passes underneath a tree, a 5.2 kg mass of snow falls vertically and lands on the moving sled. Calculate the final velocity of the sled. Show your work.

A 24 kg child on a 3.2 kg sled is sliding at 6.0 m/s, with negligible...
A child on a sled is initially at rest on an icy horizontal surface. The sled is pushed until it reaches a final velocity of 6.45 m/s in a distance of 10.8 m. The coefficient of friction between the ice and runners of the sled is 0.200, and the weight of the child and the sled is 345 N. Find the work done by the force pushing the sled. Find the minimum initial speed of a projectile in order for...
) child is pulled along the flat ground on snow on a sled by his father. The child and sled together have a mass of 33 kg. The father pulls the sled by a rope 40 degree angle above the horizontal. If the coefficient of friction between the snow and the sled is. 16, determine the force the father must pull with to maintain constant velocity. (you mus which is angled upward at a nd th e Normal Force and...
Work A child pulls a 5 kg sled along a horizontal surface The child exerts a force of 15 N to 30% and the coefficient of kinetic friction is 0.1 (a) Get the work done by all the forces that feel the sled after moving 3m (b) get the speed of the sled assuming that part of the rest using the Work-Energy Theorem
QUESTION ? 1 poi A child on a sled (total mass-35k) is pushed by another child along a horizontal surface at a constant velocity. The pushing force has a magnitude 463 N which is applied at 8 = 26 90 angle as shown above. Frictional force is also present. Draw a free-body diagram for the child-sled system and determine the normal force in N with 3 significant figures Acceleration due to gravity - 9.30 m QUESTIONS A child on a...
Starting from rest, a 30.6 kg child rides a 7.75 kg sled down a frictionless ski slope. At the bottom of the hill, her speed is 6.0 m/s . If the slope makes an angle of 13.3° with respect to the horizontal, how far along the hill did she slide on her sled? Child on a sled sliding down a slope from right to left. distance= __________
Question: At one instant, a 17.5-kg sled is moving over a horizontal surface of snow at 3.50 m/s. After 8.75 s has elapsed, the sled stops. Use a momentum approach to find the average friction force acting on the sled while it was moving. Please check my work. If it is incorrect please provide detail. Sled mass (m) = 17.5kg moving over a horizontal surface initial velocity of (U) = 3.5 m/s Initial momentum of the sledge (P1)=mU (P1)=(17.5kg)(3.50 m/s)...
At one instant, a 17.5-kg sled is moving over a horizontal surface of snow at 3.50 m/s. After 8.75 s has elapsed, the sled stops. Use a momentum approach to find themagnitude of the average friction force acting on the sled while it was moving.
A 5-kg sled is sliding on a horizontal rough surface with a speed of 18 m/s. The coefficier kinetic friction between the block and surface is 0.15. After travelling 25-m, it encounters as covered hill (where friction can be ignored) and slides uphill. The hill makes an angle of 38。 horizontal. (a) How much work is done against friction during the 25-m horizontal travel? the maximum elevation on the hill the block reaches? (c) How much work is done against...
A sled is pushed up on an inclined surface 37.0° with an initial velocity 6.0 m/s. The sled moves along the surface with a constant acceleration of 5.66 m/s2. After 5.0 s the sled reaches the end of the surface and falls 11.0 m below the inclined surface. (a) How much time (in s) does it take the sled to be in the air? (b) How far horizontally from the end of the surface the sled would fall (in m)?...
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kg15kg 20° B2007 A child pulls a 15 kg sled containing a 5.0 kg dog along a straight path on a horizontal surface. He exerts a force of 55 N on the sled at an angle of 20° above the horizontal, as shown in the figure above. Assume a constant friction force of 40N. (a) On the dot below that represents the sled-dog system, draw and label a free-body diagram for the system as...