If a rocket with a mass of 2900 tons vertically accelerates at a rate of # 2/9 m/s^2#, how much power will the rocket have to exert to maintain its acceleration at 6 seconds?

1 Answer
Feb 16, 2016

First work out what force the rocket is exerting to accelerate. Then use: Power = Force x Velocity.

The rocket's power is approximately 35.9 MW after 6 seconds.

Explanation:

The first step is to find what resultant upward force needs to be exerted by the rocket to make it accelerate upwards at #2/9 m s^-2#, which we shall denote as #a_r#. The resultant force #F# is equal to the upward force provided by the rocket's motor, #F_r#, minus the force of gravity #F_g#

Resultant upward force = upward forces - downward forces

#F = F_r - F_g#
Rearrange to make #F_r# the subject:
#F_r = F + F_g#

Newton's 2nd law tells us that:
F = m a
The question tells us the upward acceleration is: #a_r=2/9 m s^-2#, which is provided by the resultant force, so:

#F = m_r times a_r#
where #m_r# is the rocket's mass.

#F_g = m_r times text(acceleration due to gravity) = m_r times g#
Now:
#F_r =m_r times a_r + m_r times g = m_r(a_r + g)#

With an expression for the force, we can now address the power:

Power = Force x Velocity
Velocity = acceleration x time
Power = #m_r(a_r + g) times (a_r times t)#

I see you're from the USA, so we'll use US tons (aka short tons).

#m_r = 2900 text( tons) ~= 2900 text( tons) times 907 text( kg per ton = 2630300 kg#

#a_r = 2/9 m s^-2#
#g ~= 10 m s^-2# (use a more accurate value if you want)
t = 6 seconds

Finally, putting it all together:
Power #~= (2630300 kg)(92/9 m s^-2) times 2/9 m s^-2 times 6s#
Power #~= (241987600/9 N) times 12/9 m s^-1#
Power #~= 35850015 J s^-1 = 35850015# watts

Thus the rocket's power is approximately 35.9 MW after 6 seconds.