Moon Walkers.

[Nink]

I simply said that an astronaut and his space suit hitting the surface of the moon could create a localized tremor in the surface material and that could make the flag move.

A large thump from an astronaut in a space suit on the moon can cause a lot of problems
https://youtu.be/kFAZoVGxqY4?t=108

[MileHigh]

A large thump from an astronaut in a space suit on the moon can cause a lot of problems
https://youtu.be/kFAZoVGxqY4?t=108

Yes, the moon conspiracy theorists take simulation footage and dress rehearsal footage and use that as "evidence."

[MileHigh]

Sublimation is the transition of a substance directly from the solid to the gas phase without passing through the intermediate liquid phase. Sublimation is an endothermic phase transition that occurs at temperatures and pressures below a substance's triple point in its phase diagram.

[tinman]

Let me translate this for you Brad into something more coherent.

You are basically stating that the final velocity will be less because you are on the moon.   I already told you that I don't care about the final velocity.

A quote from you, "The mass equivalent in KG's on the moon is 21.45."

Let me translate that for you, "The weight equivalent in KG's on the moon is 21.45."

Can you understand how you have an issue?

Dear MH

Here on earth we calculate mass using KG's.
As i said-the mass equivalent in KG's on the moon  is 21.45--what part of that do you not understand?. If something weighs 21.45 kg's on the moon,it ruddy mass here on earth will be 130kg's. Is it really that hard for you to understand MH.

The earth quake theory is not "utter rubbish."   If you drop a mass of one kilogram onto the surface of the moon from a height of one meter, where does that energy go?

It is dissipated into the moon.
Your earth quake theory is rubbish--the proof is in the video MH--it staring you right in the face
Did you see any of these earth quake vibrations that were strong enough to make a flag wave,also create even the slightest vibration on the camera that the astronaut was holding ?--didnt think so.

While your at it,work this one out.
https://www.youtube.com/watch?v=LNWs-vlIhdM

[tinman]

Brad:

Here is a little bonus round that will throw a monkey wrench into the experiment that was locked up inside your head this whole time.

Suppose you are on the Earth and you do a straight jump up from a standing position.  Let's say you put a moderate amount of effort into it and you jump up six inches and then land.

Now, just imagine everything stays the same but the gravity is decreased to the moon's gravity.  This is just a thought experiment.

You jump up with the same amount of effort.  Naturally you will jump up much higher and you have more air time.

So what about the landings in both cases?

The answer is that in both cases you will land with the same speed and therefore you will experience the same force and the energy will be the same.

Now, going back to the moon, we see an astronaut jumping past the flag.  He is hitting the ground with the same amount of force if you imagine him doing the same thing on Earth.

In both cases, the landing back down to the ground is just as hard as the amount of effort you put into making the jump up in the first place.  Except on the moon you have more air time.

The moral of the story is that the jumping astronaut will hit the moon just as hard as if he was jumping on the Earth.

Bull shit MH.
Do the astronauts look like there jumping any higher than they would on earth?.
The fact is MH,if you drop a ball that weighs 1kg here on earth from a height of 1 meter,the impact energy will be far greater than if you dropped that same ball from the same height on the moon--thats a fact MH that you cant seem to comprehend. The energy needed to lift that ball one meter here on earth is 6.5 time greater than on the moon. The energy of the impact here on earth when that ball hits the ground is then 6.5 times greater than on the moon-minus air resistive losses here on earth.

While your at it,explain as to why the astronauts and lunar vehicles motions are in slow motion-or appear to be. For what reason do they rise so slowly when they bounce around?
If i weighed say 100kg's,and i then lost say 70kg's .Would i appear to move in slow motion,or would my motion now appear faster with the weight loss.