Ask Question
9 May, 05:09

A small spaceship with a mass of only 2.6 ✕ 103 kg (including an astronaut) is drifting in outer space with negligible gravitational forces acting on it. If the astronaut turns on a 12 kW laser beam, what speed will the ship attain in 1.0 day because of the momentum carried away by the beam?

+3
Answers (1)
  1. 9 May, 07:06
    0
    v = 2.66 10⁻³ m/s

    Explanation:

    To work this problem we must use the relationship between the amount of movement and energy for an electromagnetic wave

    p = U / c

    They give us the power of the laser, which is the relationship between work and time. Work is the variation of energy, in a laser beam that is an electromagnetic wave. We have its power

    P = W / t

    W = P t

    Work is the variation of energy W = U

    p = P t / c

    ½ m v = P t / c

    v = 2 P t / m c

    Let's reduce time to SI units

    t = 1.0 day (24 h / 1 day) (3600 s / 1 h) = 86400 s

    Let's calculate

    v = 2 12 10³ 86400 / (2.6 10³ 3 10⁸)

    v = 2.66 10⁻³ m / s
Know the Answer?
Not Sure About the Answer?
Get an answer to your question ✅ “A small spaceship with a mass of only 2.6 ✕ 103 kg (including an astronaut) is drifting in outer space with negligible gravitational forces ...” in 📙 Physics if there is no answer or all answers are wrong, use a search bar and try to find the answer among similar questions.
Search for Other Answers