Question

Prove that a guill shoot 3 times as high when it is fired at an angle of 60 degree as when it is fired at an angle of 30 degrees but at the same horizontal range?

Answer 1

See below:

Explanation:

The horizontal range is given by:

`sf(d=(v^2sin2theta)/g)`

When `sf(theta=30)` then `sf(2theta=60)`

`sf(sin60=0.866)`

When `sf(theta=60)` then `sf(2theta=120)`

`sf(sin120=0.866)`

This will give the same range for the 2 angles.

To find the height reached we can use:

`sf(v^2=u^2+2as)`

This becomes:

`sf(v^2=u^2-2gh)`

`:.` `sf(0=(vsintheta)^2-2gh)`

`sf(h=(v^2sin^2theta)/(2g))`

When `sf(theta=60^@)`:

`sf(h_(60)=(v^(2)0.75)/(2g))`

When `sf(theta=30^@)`:

`:.` `sf(h_(30)=(v^(2)0.25)/(2g))`

`:.` `sf(h_(60)/h_(30)=(cancel(v^(2))0.75)/(cancel(2g))xx(cancel(2g))/(cancel(v^(2))0.25)=3)`