Hi! The equation for force is very simple and fun! Here is how it works:
F=ma
This means that Force equals mass times acceleration. So when you are asked the force of something simple write its weight and how fast it is going, and you'll have your answer!
Good luck with any questions!
From,
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Equation: Ff=μFnFf= force of frictionFn= normal force (mass x 9.81 m/s2)μ= "mu" which is the coefficient of friction, it is unitless
mgcos(theta)
Work = Force * work=Force x Distance
Force that did the work = (work done) divided by (distance the force acted through)
The equation for force is F = M x A F = Force, M = Mass, A = Acceleration Based on the equation, in order for force to increase, and mass stay the same, you will have to increase the accelaration of the object in motion.
Force = Mass x Acceleration
The equation is force multiplied by accelaratin
One equation is Force/acceleration=mass
Equation: Force=Mass X Acceleration If you are looking for the force, use the equation as is. To find the following, it's assumed that you are given the other two values: Mass= Force / Acceleration Acceleration= Force / Mass Remember your labels in your calculations.
Equation: Force=Mass X Acceleration If you are looking for the force, use the equation as is. To find the following, it's assumed that you are given the other two values: Mass= Force / Acceleration Acceleration= Force / Mass Remember your labels in your calculations.
The equation for ideal mechanical advantage is: Output force/input force, Or input distance/ output distance.
The 1st and 3rd Equation of motion are the same, the force is zero. Thus 0 =force = Sum forces = action + reaction =0
Equation: Ff=μFnFf= force of frictionFn= normal force (mass x 9.81 m/s2)μ= "mu" which is the coefficient of friction, it is unitless
mgcos(theta)
mgcos(theta)
An important equation in this case is Newton's Second Law: F=ma
The equation to find mass is DxV (density times volume.) NM