No.
Velocity = distance divided by time.
Example: a body covers 100 metres distance in 10 seconds
velocity = 100 / 10 = 10 m/s
Work is not defined as distance/time, but rather: work= force x distance Distance divided by time will give you velocity. Displacement (or distance traveled) = velocity x time
I usually start with the definition of work: Work = force * distance so... Force = work / distance Distance = work / force So, no. You had it backwards.
power
Mechanical advantage the resistance force. Mechanical advantage is equal output force divided by input force.
Output distance is.
distance
Work is not defined as distance/time, but rather: work= force x distance Distance divided by time will give you velocity. Displacement (or distance traveled) = velocity x time
I am not sure what you are trying to calculate. Pressure is defined as force divided by area.
Any force will cause change in velocity if it isn't canceled by an equal, opposite force.
Yes, that looks correct, if you use only the magnitudes of the vectors, i.e. the "dot" product.Force x speed = force x (distance / time) = (force x distance) / time = work (energy) / time = power.
force overcome (newtons) * velocity (metres per second) = power (watts)
Disregarding friction, the net force on a car during circular motion is equal to the product of its mass and the square of its velocity, divided by the distance from the center of the circle to the car (the radius). This is also equivalent to the car's centripetal acceleration.
Centripetal force is = mass * velocity square divided by radius
Escape velocity is the velocity that an object needs in order to reach infinite distance, wherein the force will equal to zero. Orbital velocity is the velocity of an object so it can stay in orbit.
I usually start with the definition of work: Work = force * distance so... Force = work / distance Distance = work / force So, no. You had it backwards.
That's the velocity at which the force of air resistance is equal to the force of gravity.
An acceleration is a velocity divided by a time, so you have: acceleration = velocity / time acceleration = (distance / time) / time acceleration = distance / time2 The gravitational field can also be expressed as force / mass; this is equivalent to distance / time2.