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
To find the cart's acceleration, divide the force applied by the mass of the cart: acceleration = force / mass. In this case, acceleration = 12 N / 22 kg = 0.55 m/s^2.
If a larger force is exerted on the loaded cart, the cart will accelerate in the direction of the force applied. This acceleration depends on the mass of the cart and the magnitude of the force. If the force is strong enough, it may even cause the cart to move uncontrollably or tip over.
If the force of friction acting on a cart on a ramp is exactly balanced by the force of gravity acting on the cart down the ramp, the cart will remain at a constant speed and not accelerate. This is an example of a state of equilibrium where the forces are balanced, resulting in no net force acting on the cart.
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.)
When a horse applies more force to the cart, the cart will accelerate and move faster. This is because the increased force from the horse overcomes the resistance (friction) acting on the cart, allowing it to pick up speed.
Yes, work is done when a girl pulls her cart because work is the transfer of energy resulting from a force acting over a distance. When the girl applies a force to pull the cart, and the cart moves in the direction of the force, work is being done on the cart.
The force used to pull a cart is typically known as friction. Friction acts in the direction opposite to the motion of the cart, requiring a force to overcome it and move the cart forward. Other forces, such as gravity or applied force, can also be involved depending on the specific situation.
When a horse applies more force to a cart, the speed of the cart will increase. This is due to Newton's second law of motion, which states that the acceleration of an object is directly proportional to the force applied to it. So, the greater the force applied by the horse, the faster the cart will accelerate and increase in speed.
When you push a cart, the main forces involved are your applied force in the direction you're pushing, the force of friction between the cart's wheels and the ground resisting movement, and the normal force exerted by the ground on the cart to support its weight. Additionally, there may be air resistance opposing the motion of the cart, depending on the speed and shape of the cart.
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 you push a shopping cart, you apply force to move it, which transfers energy to the cart in the form of kinetic energy. This kinetic energy allows the cart to move. The energy transferred is proportional to the force you apply and the distance the cart moves.
The cart on the left will move because there is an unbalanced force acting on it, likely due to a force pushing it from the left. The cart on the right is likely not moving because the forces acting on it are balanced, resulting in no net force causing it to move.