Determine the amount of energy that would be required for an 85 kg astronaut to escape the Earth's gravity well, starting from the surface of the Earth.

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Kindly provide the solution to the following question using the GRASS  method. (Unit: Gravitational, Electric, and Magnetic Fields).

 

The images attached are the formulas for this unit and the question. Please make sure to show all your work using the GRASS (given, required, analysis, solution, and statement) method and using formulas from this unit (Gravitational, Electric, and Magnetic Fields).

Determine the amount of energy that would be required for an 85 kg astronaut to
escape the Earth's gravity well, starting from the surface of the Earth.
Transcribed Image Text:Determine the amount of energy that would be required for an 85 kg astronaut to escape the Earth's gravity well, starting from the surface of the Earth.
Gravitational
GM
r²
g
Eg
=
-GMm
r
FE
Electric Fields
EE
=
ε =
EE
kq192
d²
=
FE
q
kq192
ε =
= d
Fields
Vorbital
EE kq
q
d
||
=
d
Unit 3 Gravitational, Electric, & Magnetic Fields
= qε
W = ΔΕ =
kq192
= qV
d
qAV
ΔΕ
GM
T
=
r³ = CT² Cs
(-GMM) - (~GMM)
Magnetic Fields
FB = qvBsine
FB = I1B sine
=
GM
47²
GMm
p2
Vescape
=
2GM
Transcribed Image Text:Gravitational GM r² g Eg = -GMm r FE Electric Fields EE = ε = EE kq192 d² = FE q kq192 ε = = d Fields Vorbital EE kq q d || = d Unit 3 Gravitational, Electric, & Magnetic Fields = qε W = ΔΕ = kq192 = qV d qAV ΔΕ GM T = r³ = CT² Cs (-GMM) - (~GMM) Magnetic Fields FB = qvBsine FB = I1B sine = GM 47² GMm p2 Vescape = 2GM
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