Exercise
https://texercises.com/exercise/masse-von-kallisto/
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The following quantities appear in the problem: Masse \(m\) / Ortsfaktor \(g\) / Radius \(r\) /
The following formulas must be used to solve the exercise: \(g = \dfrac{GM}{r^2} \quad \)
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Exercise:
Der Jupitermond Kallisto hat einen Radius von rund .km. Auf seiner Oberfläche würde man eine Fallbeschleunigung von .meterpersecondsquared messen. Welche Masse hat Kallisto?

Solution:
newqtyr.em newqtyg.q newqtyG.cubicmeterperkilogrampersecondsquared solqtyMgn*rn*rn/Gnkg M fracgr^G fracg qtyr^G M
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\(\LaTeX\)-Code
Exercise:
Der Jupitermond Kallisto hat einen Radius von rund .km. Auf seiner Oberfläche würde man eine Fallbeschleunigung von .meterpersecondsquared messen. Welche Masse hat Kallisto?

Solution:
newqtyr.em newqtyg.q newqtyG.cubicmeterperkilogrampersecondsquared solqtyMgn*rn*rn/Gnkg M fracgr^G fracg qtyr^G M
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Attributes & Decorations
Tags
beteigeuze, fallbeschleunigung, gravitationsgesetz, gravitationskonstante, mechanik, ortsfaktor
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Difficulty
(1, default)
Points
2 (default)
Language
GER (Deutsch)
Type
Calculative / Quantity
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Link