For this case we have the following quadratic equation:
[tex]h (t) = -16t ^ 2 + 48t + 190
[/tex]
By the time the projectile hits the ground we have the final height equal to zero:
[tex]-16t ^ 2 + 48t + 190 = 0
[/tex]
Therefore, we have a second-order polynomial that we must solve:
Using resolver we have:
[tex]x = \frac{-48+/-\sqrt{48^2-4(-16)(190)} }{2(-16)} [/tex]
Rewriting:
[tex]x = \frac{-48+/-\sqrt{2304+12160} }{-32} [/tex]
[tex]x = \frac{-48+/-\sqrt{14464} }{-32} [/tex]
Doing the calculations we have two roots:
[tex]t1 = 5.3
t2 = -2.3[/tex]
We discard the negative root because we are looking for time which is greater than zero.
Answer:
the projectile will hit the ground after:
C. 5.3 seconds
