A probe orbits a planet of mass 2.3 x 1024 kg at a distance of 6.6 x 107 m away from its center. Calculate the minimum ∆v required to escape the planet, in km/s. Use G = 6.7 x 10-11 N m2/ kg2. (Please answer to the fourth decimal place - i.e 14.3225)
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A probe orbits a planet of mass 2.3 x 1024 kg at a distance of 6.6 x 107 m away from its center. Calculate the minimum ∆v required to escape the planet, in km/s. Use G = 6.7 x 10-11 N m2/ kg2.
(Please answer to the fourth decimal place - i.e 14.3225)
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- Given: R(N)=f(N)g(N) where f(N) = 7.2N and g(N) = (1 - 7.9/N. If R(N) = H means that R'(N) = 0 and H = 10.5N, what is the value of N that causes R'(N) = 0?Pls helpA particle has γ=18,399. a)Calculate c-v in m/s. (I would have asked for 1 - v/c, making the answer dimensionless, but the system doesn't seem to take numbers that small. Gamma is chosen to make the particle extremely close to the speed of light.) If your calculator gives problems, you might want to solve the appropriate equation for c-v or c(1 - v/c) and use an approximation. b) In the previous problem, in a race to the moon, by 3/4ths the distance, light is one or ten meters ahead of the particle. We routinely approximate mass as zero, gamma as infinite, and speed as the speed of light. ("Massless particles" -- gamma and m have to be eliminated from the expressions. Light is a true massless particle.) If a massless particle has momentum 1,739 MeV/c, calculate its energy in MeV.