Which statement explains why astronauts appear to bounce when they are walking on the moon?(1 point)
Responses
The force of gravity acting on the astronauts is stronger on the moon than on Earth.
The force of gravity acting on the astronauts is stronger on the moon than on Earth.
The force of gravity acting on the astronauts is weaker on the moon than on Earth.
The force of gravity acting on the astronauts is weaker on the moon than on Earth.
The force of air resistance acting on the astronauts is stronger on the moon than on Earth.
The force of air resistance acting on the astronauts is stronger on the moon than on Earth.
The force of air resistance acting on the astronauts is weaker on the moon than on Earth.
The force of air resistance acting on the astronauts is weaker on the moon than on Earth.
The correct statement is: The force of gravity acting on the astronauts is weaker on the moon than on Earth.
The correct statement that explains why astronauts appear to bounce when they are walking on the moon is: "The force of gravity acting on the astronauts is weaker on the moon than on Earth."
To understand why this is the correct explanation, we need to consider the concept of gravity. Gravity is the force that attracts objects towards each other. On Earth, the force of gravity is stronger due to the larger mass of the Earth compared to the moon.
When astronauts are walking on the moon, they experience a weaker gravitational force compared to what they are accustomed to on Earth. As a result, their bodies feel lighter, and when they push off the surface of the moon, their upward force overcomes the weaker downward force of gravity. This leads to a "bouncing" or a higher and longer jump than we would see on Earth.
So, the correct statement explaining why astronauts appear to bounce on the moon is that the force of gravity acting on them is weaker on the moon than on Earth.