3. Astrologers claim that when Jupiter is 'lined-up' with the Earth and Sun, its gravitational pull on humans is significant, and thus affects our life. A) Calculate the gravitational pull from Jupiter on a human (m=70 kg) when Jupiter is 'in-line' with the Earth and Sun. B) Calculate the gravitational pull from a skyscraper on a human walking through any downtown, or city center (Assume a skyscraper has a mass of 1.2 x 10° kg, and the distance between the center of masses is 175 m). C) Calculate the pull from a large cliff (M=8.8 x 10' kg and R=14 m). D) How many times bigger are the answers in B and C
3. Astrologers claim that when Jupiter is 'lined-up' with the Earth and Sun, its gravitational pull on humans is significant, and thus affects our life. A) Calculate the gravitational pull from Jupiter on a human (m=70 kg) when Jupiter is 'in-line' with the Earth and Sun. B) Calculate the gravitational pull from a skyscraper on a human walking through any downtown, or city center (Assume a skyscraper has a mass of 1.2 x 10° kg, and the distance between the center of masses is 175 m). C) Calculate the pull from a large cliff (M=8.8 x 10' kg and R=14 m). D) How many times bigger are the answers in B and C
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Transcribed Image Text:3. Astrologers claim that when Jupiter is 'lined-up' with the Earth and Sun, its gravitational
pull on humans is significant, and thus affects our life. A) Calculate the gravitational pull
from Jupiter on a human (m=70 kg) when Jupiter is 'in-line' with the Earth and Sun. B)
Calculate the gravitational pull from a skyscraper on a human walking through any
downtown, or city center (Assume a skyscraper has a mass of 1.2 x 10° kg, and the
distance between the center of masses is 175 m). C) Calculate the pull from a large cliff
(M=8.8 x 10' kg and R=14 m). D) How many times bigger are the answers in B and C
than the answer in part A? Comment on these results.
m= 70 kg
A)
R
M (Jupiter)
m= 70 kg
В)
= 70
R
M (skyscraper)
m= 70 kg
C)
R
M (cliff)

Transcribed Image Text:Perform the indicated calculations. The following information can be used for the
calculations.
1.50 x 10" m
1.99 x 1030 kg
5.98 x 1024 kg
7.36 x 10²² kg
2 x 1030 kg
1.90 x 10²" kg
Earth-Sun distance
Radius of Earth
Radius of Moon
Radius of neutron star
Earth-Jupiter distance (in-line)
Mass of Sun
6.38 x 10 m
1.74 x 106 m
Mass of Earth
Mass of Moon
12,000 m
6.3 x 10" m
Mass of neutron star
Mass of Jupiter
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