The International Space Station has a mass of 4.19 ✕ 105 kg and orbits at a...
The International Space Station has a mass of 4.19 ✕ 105 kg and orbits at a radius of 6.79 ✕ 106 m from the center of Earth. Find the gravitational force exerted by Earth on the space station, the space station's gravitational potential energy, and the weight of a 90.8 kg astronaut living inside the station. HINT (a) the gravitational force (in N) exerted by Earth on the space station (Enter the magnitude.) 3.62E6 Correct: Your answer is correct. N (b) the space station's gravitational potential energy (in J) J (c) the weight (in N) of an 90.8 kg astronaut living inside the station N
Homework Answers
Concept - use the equation for potential energy of the earth plus space station system to find the required gravitational potential energy as shown below. Weight of the astronaut will be the force exerted by the earth on the astronaut.
***********************************************************************************************
Check the answer and let me know immediately if you
find something wrong or missing... I will rectify the mistakes asap
if any
Add Answer to:
The International Space Station has a mass of 4.19 ✕ 105 kg and
orbits at a...
The International Space Station has a mass of 4.19 ✕ 105 kg and orbits at a...
The International Space Station has a mass of 4.19 ✕ 105 kg and orbits at a radius of 6.79 ✕ 106 m from the center of Earth. Find the gravitational force exerted by Earth on the space station, the space station's gravitational potential energy, and the weight of an 89.1 kg astronaut living inside the station. HINT (a) the gravitational force (in N) exerted by Earth on the space station (Enter the magnitude.) N (b) the space station's gravitational potential...
QUESTION 1: The International Space Station has a mass of 4.19 ✕ 105 kg and orbits...
QUESTION 1: The International Space Station has a mass of 4.19 ✕ 105 kg and orbits at a radius of 6.79 ✕ 106 m from the center of Earth. Find the gravitational force exerted by Earth on the space station, the space station's gravitational potential energy, and the weight of a 92.3 kgastronaut living inside the station. HINT (a) the gravitational force (in N) exerted by Earth on the space station (Enter the magnitude.) N (b) the space station's gravitational...
The International Space Station whose mass is 420 tons is orbiting at an altitude of about...
The International Space Station whose mass is 420 tons is orbiting at an altitude of about 400 km above the earth's surface. The mass of the earth is 5.976 × 102 4 kg and the radius of the earth is 6.378 × 106 m. (a) What is the gravitational force exerted on the Space Station by the earth? (b) Assuming a circular orbit, what is the period of the International Space Station's orbit? (c) Assuming a circular orbit, what is...
A 2070 kg space station orbits Earth at an altitude of 4.61×105 m. Find the magnitude...
A 2070 kg space station orbits Earth at an altitude of 4.61×105 m. Find the magnitude of the force with which the space station attracts Earth. The mass and mean radius of Earth are 5.98×1024 kg and 6.37×106 m, respectively. force:
A 2010 kg space station orbits Earth at an altitude of 5.41×105 m. Find the magnitude...
A 2010 kg space station orbits Earth at an altitude of 5.41×105 m. Find the magnitude of the force with which the space station attracts Earth. The mass and mean radius of Earth are 5.98×1024 kg and 6.37×106 m, respectively.
The magnitude of the tidal force between the International Space Station (ISS) and a nearby astronaut...
The magnitude of the tidal force between the International Space Station (ISS) and a nearby astronaut on a spacewalk is approximately 2GmMa/r3 . In this expression, M is the mass of the Earth, r=6.79×106m is the distance from the center of the Earth to the orbit of the ISS, m=125kg is the mass of the astronaut, and a=20m is the distance from the astronaut to the center of mass of the ISS. Calculate the force of gravitational attraction between the...
The magnitude of the tidal force between the International Space Station (ISS) and a nearby astronaut...
The magnitude of the tidal force between the International Space Station (ISS) and a nearby astronaut on a spacewalk is approximately 2GmMa/r3 . In this expression, M is the mass of the Earth, r=6.79×106m is the distance from the center of the Earth to the orbit of the ISS, m=125kg is the mass of the astronaut, and a=16m is the distance from the astronaut to the center of mass of the ISS. Part A Calculate the magnitude of the tidal...
10) The international space station (ISS) orbits the Earth from an altitude of 408 km. a)...
10) The international space station (ISS) orbits the Earth from
an altitude of 408 km.
a) Calculate the strength of Earth’s gravity on the ISS at that
altitude. (Hint: How far is the ISS from the center of mass of the
Earth?)
b) Earth’s gravity is what keeps the ISS in its orbit (which we
will assume is circular). At what speed does the ISS orbit the
Earth?
Please show working
New Equations 2 torque = (lever arm) x (force)...
A satellite and the International Space Station have the same mass and are going around Earth...
A satellite and the International Space Station have the same mass and are going around Earth in concentric orbits. The distance of the satellite from Earth\'s center is twice that of the International Space Station\'s distance. What is the ratio of the centripetal force acting on the satellite compared to that acting on the International Space Station? A) 0.25 B) 1 C) 2 D) 0.5 E) 4
The space station orbits Earth about 400 km above the surface of Earth (NASA.gov). At this...
The space station orbits Earth about 400 km above the surface of Earth (NASA.gov). At this height the force of gravity from Earth is only about 10% less than on the surface of Earth. Using the concepts of circular motion and gravitational forces explain the following: 1. Why does the space station not fall down? 2. Why do the astronauts float inside the space station?
10) The international space station (ISS) orbits the Earth from
an altitude of 408 km.
a) Calculate the strength of Earth’s gravity on the ISS at that
altitude. (Hint: How far is the ISS from the center of mass of the
Earth?)
b) Earth’s gravity is what keeps the ISS in its orbit (which we
will assume is circular). At what speed does the ISS orbit the
Earth?
Please show working
New Equations 2 torque = (lever arm) x (force)...
Most questions answered within 3 hours.
-
Employee training can
be defined as planned organizational efforts to help employees
learn job-related knowledge, skills,...
asked 18 minutes ago -
Which for loop is implemented correctly in Java?
Group of answer choices
for (i = 0...
asked 1 hour ago -
Required information
[The following information applies to the questions
displayed below.]
In 2019, Alliant Corporation acquired...
asked 1 hour ago -
How much must I invest today if I want to withdraw 1/3 of my
original investment...
asked 3 hours ago -
What is meant by a “term premium”?
What can explain such a premium? Is it a...
asked 5 hours ago -
23. Which molecule has only covalent bonds? A. CO2 B. Al2O3 C.
Mg3N2
24. The octet...
asked 5 hours ago -
the
total pressure for a mixture of N2O4 and NO2 is 2.20 atm. If Kp=
7.10...
asked 5 hours ago -
Delaware Corp. prepared a master budget that included $22,385
for direct materials, $28,600 for direct labor,...
asked 5 hours ago -
For pesticide HCB (hexachlorobenzene), its logarithmic partition
coefficient log Kow is 5.6. What would be the...
asked 5 hours ago -
A chemist requires 0.422 mil Na2CO3 for a reaction. How many
grams does this correspond to?
asked 5 hours ago -
If the vapor pressure of carvone is approximately 9.4 torr at 99
°C, approximately how much...
asked 5 hours ago -
A juice bottling company is carrying out a test at 10%
significance that the mean population...
asked 6 hours ago