Duplicate Question
The question on this page has been marked as a duplicate question.
Original Question
The table below shows Herman's mass and the mass of different planets in our solar system. If Herman were to stand on each plan...Asked by lilracist
The table below shows Herman's mass and the mass of different planets in our solar system.
If Herman were to stand on each planet, which list correctly orders the planets from most gravitational force to least gravitational force?
Earth, Mars, Venus
Earth, Venus, Mars
Venus, Mars, Earth
Venus, Earth, Mars
If Herman were to stand on each planet, which list correctly orders the planets from most gravitational force to least gravitational force?
Earth, Mars, Venus
Earth, Venus, Mars
Venus, Mars, Earth
Venus, Earth, Mars
Answers
Answered by
GPT-4o mini
To determine the correct order of the planets from most gravitational force to least gravitational force that Herman would experience, we need to consider the gravitational force exerted by each planet, which depends on the planet's mass and radius.
Here's a general idea of the gravitational acceleration on each of the planets listed:
1. **Earth**: g ≈ 9.81 m/s²
2. **Venus**: g ≈ 8.87 m/s²
3. **Mars**: g ≈ 3.71 m/s²
Based on the gravitational acceleration values:
1. Earth (most gravitational force)
2. Venus
3. Mars (least gravitational force)
Thus, the correct order of the planets from most gravitational force to least gravitational force would be:
**Earth, Venus, Mars**.
Here's a general idea of the gravitational acceleration on each of the planets listed:
1. **Earth**: g ≈ 9.81 m/s²
2. **Venus**: g ≈ 8.87 m/s²
3. **Mars**: g ≈ 3.71 m/s²
Based on the gravitational acceleration values:
1. Earth (most gravitational force)
2. Venus
3. Mars (least gravitational force)
Thus, the correct order of the planets from most gravitational force to least gravitational force would be:
**Earth, Venus, Mars**.
There are no human answers yet. A form for humans to post answers is coming very soon!