Which image shows objects that are exerting more gravitational force on each other?
10 billion kilograms> <1 billion kilograms
10 billion kilograms> <2 billion kilograms
(1 point) Responses Image A Image A Image B Image B They are exerting the same amount of force. They are exerting the same amount of force. There is not enough information provided to answer the question. There is not enough information provided to answer the question.
There is not enough information provided to answer the question.
To determine which image shows objects that are exerting more gravitational force on each other, we need to consider the masses of the objects involved. According to the question, we are given two sets of masses: 10 billion kilograms and 1 billion kilograms for Image A, and 10 billion kilograms and 2 billion kilograms for Image B.
The gravitational force between two objects can be calculated using the formula F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant (approximately 6.67430 × 10^-11 m^3 kg^-1 s^-2), m1 and m2 are the masses of the objects, and r is the distance between the centers of the two objects.
In both images, the mass of one of the objects is constant at 10 billion kilograms. Therefore, the only difference is the mass of the second object. By comparing the masses, we can determine which image exhibits a greater gravitational force.
For Image A, the mass of the second object is 1 billion kilograms, while for Image B, the mass of the second object is 2 billion kilograms. Since the mass in Image B is greater, the objects in Image B are exerting a greater gravitational force on each other compared to the objects in Image A.
Therefore, the correct response for this question is: Image B
To determine which image shows objects that are exerting more gravitational force on each other, we need to compare the masses of the objects involved. The greater the mass of an object, the greater the gravitational force it exerts. However, the given information only provides the masses of the objects in each image: 10 billion kilograms and 1 billion kilograms in the first image, and 10 billion kilograms and 2 billion kilograms in the second image.
Comparing the masses in the first image, we can see that the object with a mass of 10 billion kilograms is exerting a greater gravitational force compared to the object with a mass of 1 billion kilograms. Therefore, in the first image, the greater gravitational force is being exerted by the object with a mass of 10 billion kilograms.
In the second image, we can see that the object with a mass of 10 billion kilograms is the same as in the first image, while the second object has a mass of 2 billion kilograms. Therefore, in the second image, the greater gravitational force is being exerted by the object with a mass of 10 billion kilograms.
So, to answer the question, in the first image, the object with a mass of 10 billion kilograms is exerting more gravitational force on the other object, and in the second image, the object with a mass of 10 billion kilograms is also exerting more gravitational force on the other object.