impulse
This is the equation for "work."
force
The purpose is to reduce the force that must be applied to raise a load. The inclined plane and rollers were used in building the pyramids in Egypt. To raise a body vertically a force must be applied that is equal to the weight of the body. The amount of work done in raising the body is equal to its weigt times the distance through which it is raised. If friction is ignored, the work done using the inclined plane will be exactly equal to the work done in lifting the body directly.
The purpose is to reduce the force that must be applied to raise a load. The inclined plane and rollers were used in building the pyramids in Egypt. To raise a body vertically a force must be applied that is equal to the weight of the body. The amount of work done in raising the body is equal to its weigt times the distance through which it is raised. If friction is ignored, the work done using the inclined plane will be exactly equal to the work done in lifting the body directly.
impulse
Work is equal to the force applied to an object multiplied by the distance the object moves in the direction of the force. Mathematically, work = force × distance (W = F × d).
Work is done on an object when a force is applied to move the object through a distance in the direction of the force. The amount of work done is equal to the force applied times the distance the object moves.
The work done is directly proportional to the distance through which the force is applied. This is known as the Work-Energy Principle, where work is equal to force multiplied by distance. So, increasing the distance over which a force is applied will result in more work being done.
Yes, it is possible for no transformation of energy to take place even when a force is applied to a body if the body does not move in the direction of the force or if the force is cancelled out by an equal and opposite force. In such cases, the energy remains constant.
Torque and speed have an inverse relationship in a motor or engine system. As torque increases, speed decreases, and vice versa. This relationship is described by the power equation: power = torque x speed.
If a constant force is applied for double the amount of time, the impulse applied will also double. Impulse is equal to force multiplied by time, so if either the force or the time doubles, the impulse will also double.
Torque is a force times a distance (the distance from the rotation axis where the force is applied). The angle at which the force is applied can also play a role. It is not directly related to speed.Torque is a force times a distance (the distance from the rotation axis where the force is applied). The angle at which the force is applied can also play a role. It is not directly related to speed.Torque is a force times a distance (the distance from the rotation axis where the force is applied). The angle at which the force is applied can also play a role. It is not directly related to speed.Torque is a force times a distance (the distance from the rotation axis where the force is applied). The angle at which the force is applied can also play a role. It is not directly related to speed.
Great question! We hardly ever see that one submitted here.(Force) x (Time) = Momentum
You can change the size of a force using levers by adjusting the length of the lever arm. Increasing the distance from the pivot point to where the force is applied will amplify the force, while decreasing this distance will reduce the force. This relationship is described by the principle of moments, which states that the force applied times the distance from the pivot point must be equal on both sides of the lever for equilibrium.
Work is equal to the product of the force applied in the direction of motion, the distance over which the force is applied, and the cosine of the angle between the force and the direction of motion. Mathematically, it can be represented as W = F * d * cos(θ), where W is work, F is force, d is distance, and θ is the angle between the force and the direction of motion.
If you mean Newton's laws of motions, then they are: 1. A body in motion will continue unless a force is applied 2. Force equals mass times acceleration 3. For every action there is an equal and opposite force =)