No, sorry. Power is the rate at which work is done, or energy is transferred.
Work, in turn, is the product of (force) x (distance).
One cannot "Calculate the accelaration of a car by its engine power in cc" and hence derive the "force applied by it" because, depending on the configuration of the engine varying amounts of horsepower (ie engine power) can be obtained from the same size engine. One would have to have a known amount of "engine power" to apply the "F=ME" formula and from there calculate the acceleration possibilities.
-- A car accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the car. -- A stone accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the stone. -- A Frisbee accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the Frisbee. -- A baseball accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the baseball. -- A dog accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the dog. -- A book accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the book. -- A canoe accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the canoe. -- An airplane accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the airplane. -- A planet accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the planet. -- A cow accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the cow.
An object accelerates in the direction of the net applied force, which is the vector sum of all applied forces.
Political means failed. Force is applied.
power by force is a Dictator
No, sorry. Power is the rate at which work is done, or energy is transferred. Work, in turn, is the product of (force) x (distance).
The formula that relates force and power is: Power = Force x Velocity. This equation describes the rate at which work is done, where power is the amount of work being done per unit of time, force is the amount of force being applied, and velocity is the speed at which the force is being applied.
The formula for measuring the rate of work is: Work = Force × Distance ÷ Time. This formula takes into account the force applied, the distance over which the force is applied, and the time taken to complete the work.
The power of a machine depends on both the force applied and the speed at which work is done. It is calculated as the product of force and speed, or the rate at which work is done.
An increase in applied force will cause the object to accelerate.
Power can be calculated by multiplying the force applied to an object by the velocity at which the object moves. The formula for power is P = Fv, where P is power, F is force, and v is velocity. This equation shows the rate at which work is done on an object.
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In physics, power is the rate at which work is done or energy is transferred. Power can be negative if work is done in the opposite direction of the force applied, leading to a decrease in energy or the transfer of energy in the opposite direction.
If a small child was to push you in the back, you won't move forward very far, maybe a step or two. If a burly male was to push you in the back, I assume you will move forward suddenly and far, even more than two or three steps.
Maximal applied force is the maximum force that can be exerted on an object before deformation or failure occurs. It is a measure of the maximum strength or load-bearing capacity of a material or structure.
The rate of change of momentum when a force of 1 m kg/s is applied to an object is 1 kg m/s2, which is equivalent to 1 Newton.