When an astronaut is on a spacewalk and is moving away from the space shuttle, how does the force of gravity between the two objects change?(1 point) Responses it goes down it goes down it goes down for the astronaut and goes up for the space shuttle it goes down for the astronaut and goes up for the space shuttle it goes up for the astronaut and goes down for the space shuttle it goes up for the astronaut and goes down for the space shuttle it goes up it goes up
The force of gravity between the astronaut and the space shuttle does not change. It remains the same regardless of their distance or movement away from each other.
When an astronaut is on a spacewalk and is moving away from the space shuttle, the force of gravity between the two objects decreases. Therefore, it goes down for the astronaut and goes up for the space shuttle.
When an astronaut is on a spacewalk and moves away from the space shuttle, the force of gravity between the two objects changes. To understand how it changes, we need to recall Newton's law of universal gravitation, which states that the force of gravity between two objects is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers.
As the astronaut moves away from the space shuttle, the distance between them increases. According to the inverse square law, this increase in distance causes the force of gravity between them to decrease. Therefore, it can be concluded that the force of gravity goes down for the astronaut.
However, we need to consider the force of gravity on the space shuttle as well. Since the astronaut is moving away from the shuttle, the distance between them is also increasing from the perspective of the shuttle. Consequently, the force of gravity between the astronaut and the space shuttle also decreases for the shuttle.
In summary, the force of gravity goes down for both the astronaut and the space shuttle as they move away from each other during a spacewalk.