Answer:
80m/s²
Explanation:
First, use the equation below to find the strength of a planet/moon's satellite field and acceleration rate.
This is G × Mass of planet/moon ÷ r² (which is the distance or conversely radius squared)
Then you want to plg in all your values, which are going to be the gravitational constant, Kling's mass, and Kling's radius.
Remember that Earth's mass is equal to 5.97 × 10∧24 kg and its radius is exactly 6,731 km, so this will help you figure out your values for any other problems like this .
Also that the big ( G) you see is = 6.673×10∧-11.
Now for step two, which is the last thing you need to do. Once you've simplified the above equation, take the value you found, which should ≈ 7.85, and then multiply it by the force of gravity on Earth.
Once you multiply 7.85 by 9.8 m/s², the answer will be = 76.93 or ≈ 80m/s².
