the mass will be doubled (ie) if A=10 , then mass will be equal to 20.
Mass gets doubled.
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.
The acceleration would also be trippled when the force is tippled. the relevant equation is: F=ma, where F= force m=mass a=acceleration
If: Newton's Second Law states that Force equals Mass times Acceleration. Then: Algebraically, Acceleration would equal Force divided by Mass
you have to take mass and acceleration to get force
My bad, im asking why the formula isnt acceleration= force - mass
By F = ma, if the force remains constant, and the mass decreases, this would mean that the acceleration has increased by exactly the same factor as the decrease in mass. That is, if the mass of a substance was halved, its acceleration would have doubled exactly.
The acceleration is multiplied by four. a = F/m
secret
It would depend on what force is driving the acceleration. If that force is gravity, then acceleration is constant irrespective of variations in mass. All else being equal and presuming the acceleration is by the same exerted force on both the larger and smaller object, the larger object would experience 1/3 the acceleration. (The formula for determining the force is F = ma , the mass times the acceleration. For the same F, and m2 is 3m, then a2 must equal a/3. )
The one with the larger mass would pull the halved mass one toward it
Force = Mass * Acceleration If you would multiply that by Mass, you would have mass^2 * acceleration. Which, to say the least, is nothing.
the acceleration decreases
Acceleration is doubled. F = ma, where m is mass and a is acceleration. If mass is halved, acceleration is changed by a related quantity, X in this equation. F = (1/2m)(Xa) The coefficients before mass and accelerations have to equal 1 if force stays the same, so... 1/2*X=1 X = 2 therefore, acceleration is doubled.
The acceleration of an object is proportional to the net force acting on it. So if the force is reduced by half, the acceleration will also be halved. Of course, it will still be accelerating in the same direction as before, but not as quickly.
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.
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.
To maintain acceleration, both mass and force must remain unchanged. Decreasing mass and/or increasing force will increase acceleration.