Utilisateur
The product of the force & the distance travelled in the direction of the force
The rate of energy transfer
The force must be constant
s = v² / (2*a)
The capacity for doing work as a result of an objects position in a gravitational potential field
Energy can be stored or transferred, but never created or destroyed
- Useful energy output/ Total energy input
- Useful power output/ Total power input
W = F * x
W = F * Cosθ * x
F - force
x - Parallel distance
An object will remain stationary or move at a constant velocity unless acted upon by a resultant force
The resultant force of a body is directly proportional to its rate of change of momentum
When two object exert a force on each other, the force they exert on each other are equal and in opposite directions and they're of the same type
The mass of a body multipled by its velocity
1n is needed to accelerate 1kg of mass at 1ms^-1
For a system of interacting objects, the total momentum in a specified direction remains constant, as no external forces act on the system
p = mv
p - momentum
m - mass
v - velocity
Δp = mv - mu
Δp - change in momentum
m - mass
v - final velocity
u - initial velocity
The impulse of a force is equal to to change in momentum
Δp = F * Δt
Δp - Impulse
F - Force
Δt - Change in time
Calculating the area underneath the graph
No momentum or kinetic energy is lost during the collision, both quantities are conserved before and after the collision
Momentum is conserved but kinetic energy is lost during the collision