The gravitational pull on Jupiter is 2.5 times greater than Earth's gravitational pull. If an object weighs 10 pounds on Earth, what will it weigh on Jupiter?
Can you multiply 10 pounds by 2.5?
To determine the weight of an object on Jupiter, we need to consider the difference in gravitational pull between Jupiter and Earth.
The weight of an object is directly proportional to the gravitational acceleration it experiences. The greater the gravitational acceleration, the greater its weight.
Given that the gravitational pull on Jupiter is 2.5 times greater than Earth's, we can use this ratio to find the weight of the object on Jupiter.
First, let's calculate the weight of the object on Earth. We can use the formula:
Weight on Earth = mass × gravitational acceleration on Earth
The mass of the object is not given, so we don't have enough information to calculate it. However, we can proceed assuming a mass of 1. This means that the weight of the object on Earth will be equal to the gravitational acceleration on Earth.
Now, let's calculate the weight of the object on Jupiter:
Weight on Jupiter = Weight on Earth × gravitational acceleration on Jupiter / gravitational acceleration on Earth
Since the weight on Earth is equal to the gravitational acceleration on Earth (assuming a mass of 1), we can simplify the equation further:
Weight on Jupiter = gravitational acceleration on Jupiter / gravitational acceleration on Earth
Plugging in the values:
Weight on Jupiter = 2.5 / 1 = 2.5 times the weight on Earth
Therefore, if an object weighs 10 pounds on Earth, it would weigh 25 pounds on Jupiter.