The impulse of a force is the product of the force and the time it is applied. In this case, the impulse is 10N * 5s = 50Ns.
The impulse is calculated by multiplying the force by the time: 10 N * 2.5 s = 25 N.s.
The pressure exerted on the inside of the can would be 50 Pa (Pascals) using the formula pressure = force / area.
The pressure exerted on the outside of the can would be 50 Pa (P = F/A).
The acceleration produced by a force of 10N exerted on an object of mass 5kg is 2 m/s^2. This is calculated using the formula a = F/m, where a is the acceleration, F is the force, and m is the mass of the object.
The net force is the difference between the two forces. In this case, the net force is 20N (left force) - 10N (right force) = 10N to the left.
The impulse is calculated by multiplying the force by the time: 10 N * 2.5 s = 25 N.s.
The pressure exerted on the inside of the can would be 50 Pa (Pascals) using the formula pressure = force / area.
The pressure exerted on the outside of the can would be 50 Pa (P = F/A).
Pressure=Force/Area, or P=F/A. So if you have an unknown pressure P, and a force of say 10N being exerted over a variable area (let's say 1m^2 to 10m^2), let's find out what happens: P=10N/1m^2; P=10 Pascals P=10N/10m^2; P=1 Pascal As this simple math shows, pressure will decrease if the force is unchanged and area is increased - this is why you sleep on a mattress instead of a bed of nails!
The acceleration produced by a force of 10N exerted on an object of mass 5kg is 2 m/s^2. This is calculated using the formula a = F/m, where a is the acceleration, F is the force, and m is the mass of the object.
If the 10N force is positive, meaning to the north, then the 5N south would be negative, and the net force is 10N + (-5N) = 5N to the north.
The net force is the difference between the two forces. In this case, the net force is 20N (left force) - 10N (right force) = 10N to the left.
It pushes back with an equal force (10 N). If it can not, then it falls over.
If the stone weighs 10N, then a force of at least 10N must be applied in the opposite direction to prevent it from falling. This is because the force of gravity pulling it downward is balanced by an equal and opposite force applied upward.
The work done to move a 10N book 5 meters can be calculated using the formula: Work = Force x Distance. Therefore, the work done would be 10N x 5m = 50 Joules. This means that 50 Joules of energy was expended to move the book over the specified distance.
The net force is the difference between the 10N falling object and the 4N of air resistance So you solve 10N-4N is 6N
Work = force x distance Work = 10N x 4m= 40 joules