Question

A projectile is shot at an angle of `pi/8` and a velocity of `65 m/s`. How far away will the projectile land?

Answer 1

`304.539\ m`

Explanation:

The range `R` covered by a projectile shot at an angle `\theta=\pi/8` & a velocity `u=65\ m/s` is given by the following formula

`R=\text{horizontal velocity}\times \text{time of flight}`

`R=(u\cos\theta)({2u\sin\theta}/g)`

`=\frac{u^2\sin2\theta}{g}`

`=\frac{65^2\sin2(\pi/8)}{9.81}`

`=\frac{4225\cdot 1/\sqrt2}{9.81}`

`=304.539\ m`

Answer 2

The distance is `=304.6m`

Explanation:

Another way of finding the range.

The equation of the trajectory of the projectile is

`y=xtantheta-((g)/(2u^2cos^2theta))x^2`

The acceleration due to gravity is `g=9.8ms^-2`

The initial velocity is `u=65ms^-1`

The angle is `theta=pi/8`

Therefore,

`y=xtan(pi/8)-((9.8)/(2*65^5*cos^2(pi/8)))x^2`

`y=0.4142x-0.00136x^2`

The range is when `y=0`

`0.4142x-0.00136x^2=0`

`{(x=0),(x=0.4142/0.00136=304.6m):}`

graph{0.4142x-0.00136x^2 [-91, 390.2, -103.2, 137.5]}