What occurs when the Sun has more mass and a stronger gravitational force than Earth?
A) The Moon orbits the Earth.
B)The Earth orbits the Sun.
C)The Sun orbits the Earth.
D)The Sun orbits the Moon.
d
This answer is incorrect.
When the Sun has more mass and a stronger gravitational force than Earth, the correct option is:
B) The Earth orbits the Sun.
This is because the gravitational force between two objects depends on their mass and distance between them. The Sun has a much larger mass than Earth, so it exerts a stronger gravitational force. This force keeps Earth in its orbit around the Sun.
To answer this question, we need to understand the concept of gravitational force and the relationship between celestial bodies. The gravitational force is the attractive force between two objects due to their mass. According to Newton's law of universal gravitation, the gravitational force between two objects depends on their masses and the distance between them.
Now, let's analyze the options:
A) The Moon orbits the Earth: This statement is generally true. The Moon orbits the Earth due to the gravitational force between them.
B) The Earth orbits the Sun: This statement is generally true. It describes the basic principles of our solar system. The Earth orbits around the Sun due to the Sun's gravitational force.
C) The Sun orbits the Earth: This statement is false. If the Sun had more mass and a stronger gravitational force than Earth, then it would not orbit the Earth. In fact, the opposite is true - the Earth orbits the Sun.
D) The Sun orbits the Moon: This statement is false. The Sun is much more massive than the Moon and exerts a stronger gravitational force. Therefore, it does not orbit the Moon.
From the options provided, the correct answer is B) The Earth orbits the Sun. The Sun's larger mass and stronger gravitational force cause the Earth to revolve around it.