Solving rectilinear motion problems

What is rectilinear motion, and which formulas do we use to model it?

Rectilinear motion problems deal with an object that moves laterally, or horizontally.

The object can be moving along the ground or at any other height, as long as it’s moving horizontally. We call this type of motion “rectilinear” motion.

How to solve rectilinear motion problems

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How to model the position of an object that’s moving along the ground

Example

An object is moving along the ground. Its acceleration is ???a(t)=3t+5???, its velocity at time ???t=4??? is ???v(4)=6???, and its position at ???t=5??? is ???x(5)=25???. Find the equation for position that describes this object’s motion.

We can integrate the acceleration function to get a velocity function, ???v(t)???.

???v(t)=\int a(t)\ dt???

???v(t)=\int3t+5\ dt???

???v(t)=\int3t\ dt+\int5\ dt???

???v(t)=3\int{t}\ dt+5\int1\ dt???

???v(t)=\frac{3t^2}{2}+5t+C???

Now we need to solve for ???C??? using ???v(4)=6???.

???6=\frac{3(4)^2}{2}+5(4)+C???

???C=-38???

So the equation for velocity, ???v(t)???, is

???v(t)=\frac{3t^2}{2}+5t-38???

Now we can integrate the velocity function to get the position function.

???x(t)=\int{v(t)}\ dt???

???x(t)=\int\frac{3t^2}{2}+5t-38\ dt???

???x(t)=\int\frac{3t^2}{2}\ dt+\int5t\ dt+\int-38\ dt???

???x(t)=\frac{3}{2}\int{t^2}\ dt+5\int{t}\ dt-38\int 1\ dt???

???x(t)=\frac{3}{2}\left(\frac{t^3}{3}\right)+5\left(\frac{t^2}{2}\right)-38t+C???

???x(t)=\frac{t^3}{2}+\frac{5t^2}{2}-38t+C???

Now we need to solve for ???C??? using ???x(5)=25???.

???25=\frac{(5)^3}{2}+\frac{5(5)^2}{2}-38(5)+C???

???C=90???

So the equation for position, ???x(t)???, is

???x(t)=\frac{t^3}{2}+\frac{5t^2}{2}-38t+90???

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