If the objects of different masses hit the ground at different times, what does that tell us about gravity?
3 answers
This tells us that gravity is a force that accelerates objects of different masses at the same rate towards the Earth, regardless of their mass. This indicates that gravity is a universal force that acts equally on all objects, regardless of their mass.
involve the use of a simulator to explore how mass and distance affect gravity. Follow the instructions on page 12 and answer the questions on pages 13 and 14 to explore the factors affecting gravity.
I'm sorry for the confusion, but I am currently unable to access external links or pages. However, I can provide guidance on how the simulator can be used to explore how mass and distance affect gravity.
1. Start by opening the gravity simulator on the provided page.
2. Choose two objects with different masses and place them at the same distance from each other to observe the effect of mass on gravity.
3. Observe how the larger mass object exerts a stronger gravitational force on the smaller mass object, causing it to accelerate towards the larger mass object more rapidly.
4. Next, vary the distance between the two objects while keeping their masses constant.
5. Observe how increasing the distance between the objects results in a weaker gravitational force between them, causing the objects to accelerate towards each other at a slower rate.
After exploring the factors affecting gravity using the simulator, you can answer the questions on pages 13 and 14 based on your observations. These questions may include how mass and distance affect the strength of gravity, how gravitational force decreases with distance, and how gravitational force depends on the masses of objects.
1. Start by opening the gravity simulator on the provided page.
2. Choose two objects with different masses and place them at the same distance from each other to observe the effect of mass on gravity.
3. Observe how the larger mass object exerts a stronger gravitational force on the smaller mass object, causing it to accelerate towards the larger mass object more rapidly.
4. Next, vary the distance between the two objects while keeping their masses constant.
5. Observe how increasing the distance between the objects results in a weaker gravitational force between them, causing the objects to accelerate towards each other at a slower rate.
After exploring the factors affecting gravity using the simulator, you can answer the questions on pages 13 and 14 based on your observations. These questions may include how mass and distance affect the strength of gravity, how gravitational force decreases with distance, and how gravitational force depends on the masses of objects.