Ah try and collect all the scattered things into a single post...
Yes, according to my understanding the light rocket propelled grenade can penetrate the main battle tank hull if fired from above. Also, the underside of the tank is vulnerable, here you can basically use a mine which uses the same class warhead like light RPG to penetrate the armor. But these were things you all already knew, and are pretty much common knowledge. Then there are several other nice tricks, which depend of the tank model. All of that is about knowing your enemy as they say. Besides, going frontal against any tank is already a stupid thing of the defence, just as taking tanks inside the city from the attackers side. Sometimes these things cannot be avoided and there must be a well thought out plan if that happens.
Regarding the suit, I don't see a way how it could move significantly faster or nimbler than a human. Talk about the power source and weapon load etc. etc. assumes that the ground supports the additional weight. For nuclear batteries, any pilot willing to put up a larger one behind their backs? Added weight from the radiation shielding? And the combat shielding of the power unit?
Regarding the armor, if I recall correctly, as a rule of thumb, a standard hunting rifle bullet can travel through one centimeter of steel. Actually, I looked up some numbers, so standardized surface area of man is about 2m^2, which you need to cover. So, 0.01 m layer of steel on top of man will result in approximately 0.02 cubic meters of steel. Now, specific weight of steel is around 7.9 g/cm^3, or 7900 kgs/m^3 resulting to the weight of 158 kgs. Add in a pilot, about 80 kilograms and then the batteries, the actuactors or servo motors, the support frame, the actual payload, you got the idea. It is lucky if the end result is below 350 kgs. Then talk about athermalization, since all the fancy stuff has to work regardless of the temperature. Usually such materials are much harder to machine, resulting in difficulties in achieving the manufacturing tolerances, which will result in heavier and bulkier structures. Also the lubrication of the joint areas must be taken care of, and I suspect that this will also be a major problem since few joints in human body have rotations only along a single axis. But this is only my opinion of the combat feasibility of that suit.
But even this is optimistic, since you also have to stop the shockwave from entering the pilot's body, so there must be some extra cushion or extra room available around pilot's body which will increase the surface area (and weight) of the system. Also, there must be some careful design around the head of the pilot to prevent the pressure wave caused by a direct hit from entering pilots ears or in general, head or spine! Also, how could the eyes of the pilot be protected while retaining the situational awareness? It is not a difficult trick to shoot the pilot in the eye.
It is far more easier and cheaper to develop a rifle or ammunition that will pierce through this armor than to deploy the armor in a combat situation with significant numbers. Actually, I don't even know where it could actually help, not counting hand to hand combat, and even that is a little questionable.
Load carrying then, there it might prove to be useful. While it can double the amount of single man can move, it is usually easier to have two men doing the thing.
Mika
