Would more or less gravity make you proportionately stronger?

It is known you can lift more if gravity is weakened, but more weighs less in less gravity. Though what is the ratio compare to normal gravity...like if you can lift 100% of your body weight in a gravity level of 1 how much weight can you lift in 0.5 gravity or 2 gravity...

so can you lift 200% of body weight in 0.5 gravity and only 50% body weight in 2 gravity? or does the numbers have an exponential value?

• I think this question is very unclear. By the way the statement "It is known you can lift more if gravity is weakened" is not a law of physics but a CONSEQUENCE of the fact that things weight less which is itself a definition of "weakening gravity" since weight is the force of gravity applied on that object. Nov 2, 2019 at 15:08

This is a great question!

so can you lift 200% of body weight in 0.5 gravity and only 50% body weight in 2 gravity?

Yes. But...

When we interact with objects having significant, large mass on Earth, there are two ways that we experience the mass; weight and inertia.

Gravitational mass (as weight)

This is the one that you discuss in your question, and your understanding seems to be correct. Let's say you can easily and comfortably lift a 50 lb. bag of something from the ground and carry it from point A to point B and set it down. Then if you are living in a lunar base on the Moon you could potentially lift a 300 lb. bag of something off of the ground as well.

You would have the strength to

1. get it off of the floor
2. accept it if someone slowly and carefully passes it to you at a comfortable hight

Inertial mass

However if you weren't careful, you might hurt yourself badly or damage something trying to lift it and carry it from point A to point B.

This is because while an objects weight scales with the strength of local gravity, its inertial mass doesn't change.

Imagine that you have a Plymouth Satellite station wagon, and you've run out of gas and stopped in an awkward place (not that this has ever happened to me, and not that it hasn't either). If you make sure it is in neutral and the tires are properly inflated and the brakes aren't stuck, you can push on it horizontally and it will slowly start moving.

If you are smart (which I wasn't) you will think about what you are going to do when you want it to stop ahead of time because you'll realize (which I didn't) that while the weight is a non-issue, the inertia is really important. Even though you are not lifting it, you need to be very careful once it is in motion because you will need to slow it down and stop it as well!

So to lift your 300 lb. bag, you'll need to pull on it to get it moving up, but your lifting will be like in slow motion. And if you pull too long, it may be moving too fast to slow down once it passes your waist on its way to your shoulders, and when you try to get it to stop at shoulder height, you may use muscles that you haven't before, and you may discover that since the bag weighs far more than you do, your feet leave the ground!

Then it will slow down, reverse direction, and hopefully you have your shoulder under it and your legs bent in order to bring the 300 lbs. to a stop at a comfortable height.

So you will need to train how to safely manage masses much larger than yourself that weigh less than you did back on Earth!

Source: Find Classic Cars' 1973 plymouth satellite wagon, rare, survivor

• Great answer! The JSC Virtual Reality lab has a mass-handling robot called Charlotte as part of their EVA simulator. It's pretty educational and non-intuitive the first time you try to move something massive - and then stop it - in free fall. gizmodo.com/… Nov 3, 2019 at 14:59
• @OrganicMarble my answer is just a hypothetical extension of physics. If you have something more to add it would be great if you added another answer. I know that Shuttle and ISS astronauts had/have to maneuver large masses regularly, whether fixing Hubble or unloading the lasted shipment from Earth.
– uhoh
Nov 3, 2019 at 15:30
• Now I'm interested to know how the Plymouth Satellite may or may not have been stopped. Nov 5, 2019 at 17:54

If you lift a weight, you could not use all the force of your muscles to lift the weight. You need some force to lift the weight of your arms or the upper part of your body.

If gravity is so strong that you may lift your arms alone there is no force left to lift a weight.

But a very strong gravity would reduce the blood flow to the brain so much that you are unable to stand.

• What about less gravity? In that case, you may have more spare force to lift a weight but I would also point out that the mass of the lifted object stays the same so even with zero gravity you wouldn't lift a 1000 ton object very fast. Nov 2, 2019 at 11:44