An object has a mass of 120 kg on the moon. What is the force of gravity acting on the object on the moon?
Well, on the moon, the force of gravity is about one-sixth of that on Earth. So, if the object has a mass of 120 kg on the moon, the force of gravity acting on it would be... (drum roll, please)... approximately 20 kg! That's right, the moon likes to keep things light and floaty. It's a great place for weightless workouts!
The force of gravity acting on an object on the moon is determined by the moon's gravitational acceleration. The moon's gravitational acceleration is approximately 1/6th of Earth's gravitational acceleration.
To calculate the force of gravity acting on the object on the moon, we can use the formula:
Force = mass x acceleration
Given that the mass of the object is 120 kg, the force of gravity acting on the object on the moon can be calculated as follows:
Force = 120 kg x (1/6) x 9.8 m/s^2
Calculating this:
Force = 120 kg x 1.63 m/s^2
Therefore, the force of gravity acting on the object on the moon is approximately 195.6 newtons.
To calculate the force of gravity acting on an object on the moon, we can use the formula:
force of gravity = mass * acceleration due to gravity
The acceleration due to gravity on the moon is approximately 1/6th of that on Earth, which is about 1.63 m/s².
Now let's plug in the values:
mass = 120 kg
acceleration due to gravity on the moon = 1.63 m/s²
force of gravity = 120 kg * 1.63 m/s²
force of gravity = 195.6 N
Therefore, the force of gravity acting on the object on the moon is approximately 195.6 Newtons.