F = ma, W = Fd
Or in words: force is mass multiplied by acceleration; work is force multiplied by distance.
Work can be completed in three different situations: when force is present, when force is applied to a particular object, and when the force applied occurs in a parallel motion.
Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.
The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.
It depends on the distance over which the work is done. Work = Force x distance
The term "work", as used in physics, is a transfer of mechanical energy - defined (in the simplest case) as the product of a force times a distance over which the force acts.
Work can be completed in three different situations: when force is present, when force is applied to a particular object, and when the force applied occurs in a parallel motion.
Yes. It is a different, and unrelated, force.Yes. It is a different, and unrelated, force.Yes. It is a different, and unrelated, force.Yes. It is a different, and unrelated, force.
Separation of the work force into different categories of labor; dividing the work required to produce a product into a number of different tasks that are performed by different workers.
Work = (force) times (distance) The forces on the two ends of the lever are different, and so are the distances that the ends of the lever move through. But they're different in exactly the right way so that their product (force x distance) is the same on both ends, and the work is that product.
scientific work is F*D=W F=force D=distance W=work
Work is calculated by multiplying force by the distance the force is applied. Work is measured in Joules (J).
You calculate the vector sum of all the forces acting on the object. For example, if one force is in the positive direction, say 8N, and another force is in the opposite direction, say -7N, the net force would be 8N + (-7N) = 1N.
Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.Yes, if no force is applied. Work = force x distance, so if the force is zero, no work is done.
You have to push or pull to put force on an object to move and you have to move and object in a distance to workthe defference of work and force.a force is you have to balance the speed and the slow and high force of youre hands and muscle to have the force.and the work.a work is to have the motion of youre body like changing position and direction.
The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.The work done is the force multiplied by the distance. You don't have the force in this case; if there is no friction, you would need zero work. If the mass moves is on a flat surface, multiply by the coefficient of friction to get the force required. The coefficient of friction varies for different combinations of materials.
It depends on the distance over which the work is done. Work = Force x distance
I usually start with the definition of work: Work = force * distance so... Force = work / distance Distance = work / force So, no. You had it backwards.