Question

An object with a mass of `2 kg` is acted on by two forces. The first is `F_1= <-3 N , 1 N>` and the second is `F_2 = < 6 N, -2 N>`. What is the object's rate and direction of acceleration?

Answer 1

`a=F/m`

Explanation:

HINT: The acceleration `a` of a rigid body of mass `m` under the application of force `F` is given as follows

`a=F/m`

Answer 2

The rate of acceleration is `=1.58ms^-2` in the direction `18.43^@` clockwise from the x-axis

Explanation:

The resultant of the `2` forces is

`vecF=vecF_1+vecF_2`

`=<-3,1> +<6,-2>`

`= <3, -1>`

According to Newton's Second Law

`vecF=mveca`

The mass is `m=2kg`

Therefore,

The acceleration is

`veca=vecF/m=1/2 *<3,-1> = <3/2,-1/2>`

The rate of acceleration is

`||veca|| = ||<3/2,-1/2>|| = sqrt((3/2)^2+(-1/2)^2)`

`=sqrt(9/4+1/4)`

`=sqrt10/2`

`=1.58ms^-2`

The direction of acceleration is

`theta=arctan(-1/3)=18.43^@` clockwise from the x-axis