F=ma is the formula that describes Newton's second law.
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F=m*a Force is equal to mass times acceleration, so when you apply acceleration to an object with mass you are really applying force
If: Newton's Second Law states that Force equals Mass times Acceleration. Then: Algebraically, Acceleration would equal Force divided by Mass
[ force ] = [ mass ] [ acceleration ] = [ mass ] [ length/time2 ] = [ mass-length-time-2 ]
F = ma Force is equal to mass times acceleration.
No... According to Newton's Second Law of Motion, a force (in newtons) is equal to the mass (in kilograms) times the acceleration(meters per second squared). It can be rewritten as a = F/m and m = F/a as well.
Force is equal to mass times acceleration. This is Newton's Second Law.
Force is equal to mass times acceleration. Mass is equal to density times volume. Acceleration equals to velocity over unit time.
F=ma Force equals its mass times its acceleration.
Force equals mass times acceleration.
Force equals mass times acceleration.
F = m AMultiply (mass) times (acceleration). The product is (force).
Force=mass*accelerationforce equals mass times acceleration
Inertia
An unbalanced force produces acceleration, in accordance with Newton's very basic formula, force equals mass times acceleration.
Work. The force times the distance over which the force is applied is equal to the work. Work is measured in joules.
Correct! You've really nailed it.
Acceleration. Force is equal to mass times the acceleration, so in this case, acceleration is how fast an object increases its velocity.