More force will be required to push an object along the ramp.
The effort needed would increase.
the force is less because if the fulcrum is father away from the effort the force will increase and become greater. so if the fulcrum is closer to the effort there will be less force.
simple pulley simple pulley
pressure will increase
There speed will increase steadily and if they are going in same direction, they will reach the destination at the same time.
The effort needed would increase.
the force is less because if the fulcrum is father away from the effort the force will increase and become greater. so if the fulcrum is closer to the effort there will be less force.
simple pulley simple pulley
pressure will increase
If by effort you mean the force, (5kg x 9.81m/s²) = 49.05 Newtons. If you mean the amount of work, take the value of force and multiply it by the height in meters. 49.05N x (Height) = work (Joules)
There speed will increase steadily and if they are going in same direction, they will reach the destination at the same time.
The input force would increase as the height of the ramp increased. It wouldn't matter the distance. Ask me another one.
is to apply leverage To increase the resistance that can be moved with a given effort, e.g. a crowbar. To increase the velocity at which an object will move with a given force, e.g. a Golf club.
The force will increase fourfold.
load force and friction oppose the effort force
The deformation would increase because the force increases.
What is the βcostβ for using a machine to increase force