Question
Students used a computer simulation to determine the variables that affect the gravitational force between two objects.
They collected the data shown in the table.
Mass of
Object 1
(kilograms)
25
25
100
100
Mass of obiect 2
(kilograms)
25
25
100
1
Distance
Between
Objects 1
and 2
(meters)
4
8
g
8
Gravitational
Force of Object 1
on Object 2 (newtons)
Gravitational
Force of Object 2
on Object 1 (newtons)
2.6 × 10-9
6.5 x 10-10
10x 10-8
1.0 x 10-10
2.6 × 10-9
6.5 × 10-10
1.0 × 10-8
1.0 × 10-10
Part A
Choose the claim statement that best agrees with the data.
(A) Distance is the only variable that affects the gravitational force between two objects.
Both mass and distance are variables that affect the gravitational force between two objects.
(c Mass does not affect the gravitational force between two objects.
(D) Mass is the only variable that affects the gravitational force between two objects.
They collected the data shown in the table.
Mass of
Object 1
(kilograms)
25
25
100
100
Mass of obiect 2
(kilograms)
25
25
100
1
Distance
Between
Objects 1
and 2
(meters)
4
8
g
8
Gravitational
Force of Object 1
on Object 2 (newtons)
Gravitational
Force of Object 2
on Object 1 (newtons)
2.6 × 10-9
6.5 x 10-10
10x 10-8
1.0 x 10-10
2.6 × 10-9
6.5 × 10-10
1.0 × 10-8
1.0 × 10-10
Part A
Choose the claim statement that best agrees with the data.
(A) Distance is the only variable that affects the gravitational force between two objects.
Both mass and distance are variables that affect the gravitational force between two objects.
(c Mass does not affect the gravitational force between two objects.
(D) Mass is the only variable that affects the gravitational force between two objects.
Answers
Answer
As the masses of both objects increased, the gravitational force between them them blank and as the distance between the two objects increased, the gravitational force between them blank
Answer
A 20 pound barbell is brought from earth to the International Space Station(ISS). How does this trip affect the gravitational force between the two ends of the barbell? Assume the distance between the barbell end masses does not change.
(A) The gravitational force between the ends remains the same.
B The gravitational force between the ends increases.
(c The gravitational force between them doubles.
(D The gravitational force between the ends decreases.
(E) The gravitational force between them decreases by one half.
(A) The gravitational force between the ends remains the same.
B The gravitational force between the ends increases.
(c The gravitational force between them doubles.
(D The gravitational force between the ends decreases.
(E) The gravitational force between them decreases by one half.
Answer
The table below shows four examples of pairs of objects, the masses of each object in the pair, and the distances between the objects. In which example is the gravitational force of attraction between the two objects thi
greatest? Explain how you know this
Example 1: M1 = 100 M2= 200 distance: 20 KM
Example 2: M1= 100 M2 = 200 distance: 10 KM
Example 3: M1 = 50 M2 = 100 distance: 20 KM
Example 4: M1 = 50 M2 = 100 distance: 10 KM
greatest? Explain how you know this
Example 1: M1 = 100 M2= 200 distance: 20 KM
Example 2: M1= 100 M2 = 200 distance: 10 KM
Example 3: M1 = 50 M2 = 100 distance: 20 KM
Example 4: M1 = 50 M2 = 100 distance: 10 KM
Answer
Okay, which example has the greatest gravitational force between the two objects, it can only be one answer
Answer
Wrong
Answer
Wrong, it was Example 3, why was it example 3?
Answer
Give me a paragraph on how example 3 is correct please
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