# On which object will Earth’s gravity act with the greatest magnitude?

A.) a banana

B.) a toaster

C.) a television

D.) a piano

## D.) A piano.

The Earth's gravity will act with the greatest magnitude on the piano because it has the highest mass among the given objects. The greater an object's mass, the more gravitational force it exerts on other objects or is attracted to other objects, which in this case is the Earth.

## hello, it is D, the piano

because it wheights more than all the other ones and plus it is more heavier.

## The correct answer is D.) a piano.

Explanation:
The magnitude of Earth's gravity is the same for all objects, regardless of their mass. However, the force of gravity acting on an object is directly proportional to its mass. Therefore, out of the given options, the piano would have the greatest magnitude of Earth's gravity acting upon it due to its larger mass compared to the other objects.

## To determine on which object Earth's gravity will act with the greatest magnitude, we need to consider the mass of the objects. The greater the mass of an object, the greater the force of gravity acting upon it.

Let's consider the options:

A) A banana: Bananas typically have a very low mass, so the force of gravity acting on it will also be relatively low.

B) A toaster: While a toaster is heavier than a banana, it still has a relatively low mass. So, the force of gravity acting on a toaster will be greater than that of a banana, but not the greatest.

C) A television: Televisions are usually larger and have more mass compared to toasters and bananas. Therefore, the force of gravity acting on a television will be greater than that of a toaster or a banana, but it may not be the greatest.

D) A piano: Pianos are typically quite heavy, and therefore have a high mass. This means that the force of gravity acting on a piano will be the greatest compared to the other objects mentioned.

So, the correct answer is D) a piano. Earth's gravity will act with the greatest magnitude on a piano due to its high mass.