Question

Two astronauts are floating in gravitational free space after having lost contact
with their spaceship. The two will.
A. Will become stationary
B. Keep floating at the Same distance between them
C. Move towards each other
D. Move away from each other

Answer 1

Hint: The two space explorers will move towards each because of the gravitational force b/w them however it will be an exceptionally moderate procedure because of their law of mass.

Complete answer:
The correct answer is C.
However, the mass of 2 space explorers is so little its belongings are normally overpowered by the neighborhood gravitational field of the earth and the sun. To see those small impacts, you need to painstakingly situate the two objects.
For example, cautiously putting them with completely zero speed comparable to one another as a little knock like with daylight can overpower the gravitational fascination. In the event that they are in a circle around the earth or sun you have to have them in the very same good ways from the middle.
Gravitational force basically implies the force that pulls in an object in our universe to each other. It clarifies why you can remain on the world's surface.
This force of fascination is legitimately corresponding to the result of the two masses included and conversely relative to the square of the separations between them.
The gravitational force is a force that pulls in any two objects with mass. We call the gravitational force attractive in light of the fact that it generally attempts to arrange masses, it never pushes them separated. Truth be told, each object, including you, is pulling on each other object in the whole universe.

Note: Each object in space applies a gravitational draw on each other, thus gravity impacts the ways taken by everything going through space. The paste holds together whole cosmic systems. It keeps planets in a circle. It makes planets tenable by catching gasses and fluids in a climate.