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35 votes
DATE

CLASS
14. The Space Shuttle must achieve a velocity of 7,800 m/s in order to orbit the
Earth If the average acceleration of the Space Shuttle is 15.3 m/s², how long will
It take for the shuttle to reach orbital velocity? Convert your answer from seconds
to minutes. Show all your work for this calculation.

User ADroid
by
3.0k points

1 Answer

23 votes
23 votes

Answer:

8.49673 minutes ≈ 8.5 minutes

Step-by-step explanation:

Acceleration, a is defined as the rate of change in velocity divided by the change in time to attain that velocity


\mathsf a = (\Delta v)/(\Delta t) \\\\\textsf {where } \mathsf {\Delta v = v-v_0} \textsf{ v being final velocity and v_0 initial velocity}, v = final velocity and v₀ the initial velocity
and Δt is the time required to attain final velocity


Δt = number of seconds since launch = t since t₀ = 0

Therefore,

a = (v-v_0)/(t)

The space shuttle's initial velocity is 0 m/s and its final velocity must be 7800 m/s to escape earth's gravity

So v - v₀ = 7800 - 0 = 7800 m/s, t - t₀ = t = 0 = t seconds
a = 15.3 m/s²

We have the equation

a = 7800/t

a is given as 15.3 m/s² so
15.3 = 7800/t

t = 7800/15.3 = 509.80392 seconds

To convert to minutes, divide by 60
509.80392/60 = 8.49673 minutes ≈ 8.5 minutes


User Auberon
by
2.6k points