The table shows the values of two quantities for an astronaut on Earth and Earth's moon. Which of the following names the quantity and correctly explains why that represents the astronaut's mass? Quantity A, because it remains the same throughout Quantity B, because it is independent of other quantities Quantity B, because it changes with gravitational strength Quantity A, because it measures the force acting on the astronaut

the answer is A. because in space, the whole thing is the same amount of density. except for the sun but the question says earth and moon. hop this helps!!! please give me brainliest answer!!!

Answer Link

bhoopendrasisodiya34 bhoopendrasisodiya34 · Answer 2 · 2022-08-16T15:54:59+02:00

Quantity A because it changes with gravitational pull.

Given that, the Astronaut's mass of quantity A on earth is 70 units and on the moon is 70 units.

The Astronaut's mass of quantity B on earth is 686 units and on the moon is 112 units.

What happens to an astronaut's mass in space?

We can measure weight here on Earth, but not in the microgravity environment on the International Space Station. Mass plays a critical role in the activities and experiments performed by the astronauts. Mass does not change whether it is measured on Earth or the ISS.

Now, mass defines the constitutive matter of an object. It is immutable (does not change). Although it could be converted into energy, the matter is constant.

On the other hand, the weight of an object (gravitational force) depends on the acceleration due to gravity.

That is why an astronaut weighs about three times more on earth than on Mars. The gravitational acceleration on Mars is about one-third that on earth.

Therefore, Quantity A because it changes with gravitational pull.

To learn more about the Astronaut's mass visit:

https://brainly.com/question/4783520.

#SPJ2