A toilet flushing
It depends on the force acting on the body in question. Depending on which way you want your independent and dependent variables set up, the equation is either Acceleration = Force/mass or Mass = Force/acceleration
Newton's Second Law: force = mass x acceleration. Solving for acceleration: acceleration = force / mass. In other words, other things (i.e., the mass) being equal, the acceleration is proportional to the force.
you have to take mass and acceleration to get force
My bad, im asking why the formula isnt acceleration= force - mass
The acceleration of the ball would depend on its mass and the force of the push. This is because force = mass times acceleration. You could manipulate this equation to solve for acceleration by dividing each side by mass. Acceleration therefore equals force/mass.
F = ma. The force applied to an object creates an acceleration depending on the mass of the object.
It depends on the force acting on the body in question. Depending on which way you want your independent and dependent variables set up, the equation is either Acceleration = Force/mass or Mass = Force/acceleration
Newton's Second Law: force = mass x acceleration. Solving for acceleration: acceleration = force / mass. In other words, other things (i.e., the mass) being equal, the acceleration is proportional to the force.
Force = mass x acceleration, therefore, acceleration = force / mass.Force = mass x acceleration, therefore, acceleration = force / mass.Force = mass x acceleration, therefore, acceleration = force / mass.Force = mass x acceleration, therefore, acceleration = force / mass.
Neither. Force causes acceleration of mass. Mathematically, Force = Mass * Acceleration.
oxnNJaJanjoNasONNsa force, motion, acceleration, mass
As per Newton's first law of motion, if the applied force remains the same, an increase in mass will result in a decrease in acceleration. In contrast, if the acceleration were to remain the same when the mass increases, there must be a greater force applied.
The answer can vary depending on circumstances. The average rate of acceleration may be measured as a change in velocity over time. But it is also possible to measure acceleration using force and mass.
you have to take mass and acceleration to get force
No, an object's acceleration is inversely proportional to an objects mass.
Increasing force increases acceleration but increasing mass decreases acceleration.
From the formula force = mass x acceleration, if there is more mass, there will be less acceleration. Assuming the force doesn't also change.From the formula force = mass x acceleration, if there is more mass, there will be less acceleration. Assuming the force doesn't also change.From the formula force = mass x acceleration, if there is more mass, there will be less acceleration. Assuming the force doesn't also change.From the formula force = mass x acceleration, if there is more mass, there will be less acceleration. Assuming the force doesn't also change.