you times 45 x 1 = 45
45j
it goes faster i assume.
You need to know the coefficient of friction between the ramp and the cart.
It reduces the force needed to move the load up. Just think of it, it takes less force to push a cart with 100 kg of bricks on a slope or is it easier to lift it up directly to a height of 10m?
a compound word beginning with cart is any word that begins with cart and has another word in it.
F=maa=m/Fa=400kg/675N= 0.6m/s/s
Work= 200 Joules.
F = m aa = F/m = 12/22 = 6/11 = 0.545 meter/sec2 (rounded)
In this case, work is the product of force and distance. (This assumes that both are in the same direction, and that the force doesn't change.)
The cart stays where it is and doesn't move.
It is one of Isaac newton's laws, I believe it is the second one. It says that for every force, there is an equal and opposite force. Say you are pulling a cart. If you pull the cart with a force of 10N, the cart pulls on you with a force of 10N (mostly due to friction). If a train hits you with a force of 100,000N, you hit the train with a force of 100,000N; believe it or not.
The speed of cart becomes fast when the horse applies more force
When u push the cart,u apply some force on the cart which does the work(the cart moves). The movement of the cart is the work done due to the application of the force you.
When u push the cart,u apply some force on the cart which does the work(the cart moves). The movement of the cart is the work done due to the application of the force you.
East
it goes faster i assume.
No. Gravitational force is the attractive force that objects of mass have on other matter (including light). Pushing a grocery cart is an example of force, just not a gravitational force. Now, dropping a grocery cart would be an example of gravitational force, since it is the Earth's mass that is attracting it towards the ground.
The cart's acceleration will be directly proportional to the net force applied to it. If the force remains constant, the acceleration will also remain constant, assuming no other external factors are affecting the cart's motion.