What is the acceleration due to gravity 'g' on the moon if 'g' is 10m/s² on the earth?
'g' is directly proportional to the mass, and inversely proportional to the square of the radius
gm = ge (lunar mass / earth mass)(Re / Rm)^2
or about 10/6 :)
To find the acceleration due to gravity on the moon, we need to know the value of the moon's gravitational field strength.
The acceleration due to gravity, denoted as 'g,' is the acceleration experienced by an object when it falls freely under the influence of gravity. On Earth, the value of 'g' is approximately 10 m/s².
However, the moon has a different gravitational field strength compared to Earth. On the moon, the value of 'g' is approximately 1/6th of the value on Earth.
To calculate the acceleration due to gravity on the moon, we can use the following formula:
g_moon = (g_earth) / 6
Plugging in the value for 'g_earth' (10 m/s²), we get:
g_moon = (10 m/s²) / 6
Simplifying this equation, we find:
g_moon ≈ 1.7 m/s²
Therefore, the acceleration due to gravity on the moon is approximately 1.7 m/s².