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.
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.
10.0kg x 9.81N/kg = 98.1N 98.1N x 5.0m = 490.5J
Work = Force x distance
W = F x d
= 5 N x 2m
= 10 Nm
Work = (force) x (distance) = (50) x (10) = 500 newton-meters = 500 joules.
The idea is to simply use the definition of "work", and multiply force x distance. (The assumption is that both are in the same direction.)
Just multiply the distance by the force. This assumes that the force is acting in the same distance as the movement.
98g/s2
In that case, the mass will also be 10 kg.
The formula for kinetic energy is (1/2) x mass x velocity2. If mass is in kg. and speed in meters per second, the energy will come out in Joule.D. 125 J
The acceleration is 9.8 m/s2.
(4 x 5) kilogram-meters = 20 joules
That would depend on the volume (density) of the 10kg object.
98g/s2
Both the 10kg stack of books and the 10kg piece of Styrofoam weigh the same amount, 10kg, because weight is a measure of the force due to gravity acting on an object's mass.
Please multiply the mass by the gravity. On Earth, the gravity is approximately 9.8 newton/kilogram (= 9.8 meters/second2).
In that case, the mass will also be 10 kg.
Uranus's mass is 8.6832*10kg
What is the mass of 1 sheep?
98.07 newtons (Force = mass x acceleration)
2000k
The formula for kinetic energy is (1/2) x mass x velocity2. If mass is in kg. and speed in meters per second, the energy will come out in Joule.D. 125 J