If a projectile is shot at a velocity of #3 m/s# and an angle of #pi/3#, how far will the projectile travel before landing?

1 Answer
Jun 26, 2018

Approximately #0.8# meters.

Explanation:

I assume that the projectile was launched from flat ground.

Range of a projectile is given by the equation:

#d=(v^2sin(2theta))/g#

where:

  • #d# is the total distance traveled

  • #v# is the initial velocity

  • #theta# is the angle of incline

  • #g# is the gravitational acceleration, which is #9.8 \ "m/s"^2# on Earth

So, we get:

#d=((3 \ "m/s")^2*sin((2pi)/3))/(9.8 \ "m/s"^2)#

#=(9 \ "m"^2"/s"^2*0.87)/(9.8 \ "m/s"^2)#

#=(7.83color(red)cancelcolor(black)"m"^2"/"color(red)cancelcolor(black)("s"^2))/(9.8color(red)cancelcolor(black)"m""/"color(red)cancelcolor(black)("s"^2))#

#~~0.8 \ "m"#