Jimmy Corsetti

And this is to move into – so that stone is one-third the weight of the trilithon stones, or at least of the Ramesseum statue, which is the 1,000 metric tons.

And this is to move into – so that stone is one-third the weight of the trilithon stones, or at least of the Ramesseum statue, which is the 1,000 metric tons.

There's some great photos of it.

There's some great photos of it.

There's some great photos of it.

So 700 something thousand pounds. So almost a million pounds. And so meanwhile, you have the trilithon stones that are 1.75 million pounds. And so what's interesting is that the Romans, their largest, most powerful crane could lift 6.6 tons, which means that you would need approximately 130 something of those cranes to lift just one of those trilithon stones.

So 700 something thousand pounds. So almost a million pounds. And so meanwhile, you have the trilithon stones that are 1.75 million pounds. And so what's interesting is that the Romans, their largest, most powerful crane could lift 6.6 tons, which means that you would need approximately 130 something of those cranes to lift just one of those trilithon stones.

So 700 something thousand pounds. So almost a million pounds. And so meanwhile, you have the trilithon stones that are 1.75 million pounds. And so what's interesting is that the Romans, their largest, most powerful crane could lift 6.6 tons, which means that you would need approximately 130 something of those cranes to lift just one of those trilithon stones.

And it's like, there's not space to do it. You couldn't coordinate, not feasible.

And it's like, there's not space to do it. You couldn't coordinate, not feasible.

And it's like, there's not space to do it. You couldn't coordinate, not feasible.

Now, let me say this about Wally Wallington because that guy is a genius. What he accomplished to move those 20-ton stones is brilliant. But my pushback on it is that he did it on a concrete foundation. He also used – he needed a hose to do it. He used pressurized water. So I'm like when I look at the 80-ton stones – To do what? To cut?

Now, let me say this about Wally Wallington because that guy is a genius. What he accomplished to move those 20-ton stones is brilliant. But my pushback on it is that he did it on a concrete foundation. He also used – he needed a hose to do it. He used pressurized water. So I'm like when I look at the 80-ton stones – To do what? To cut?

Now, let me say this about Wally Wallington because that guy is a genius. What he accomplished to move those 20-ton stones is brilliant. But my pushback on it is that he did it on a concrete foundation. He also used – he needed a hose to do it. He used pressurized water. So I'm like when I look at the 80-ton stones – To do what? To cut?

So he would basically use the water to have the sand below it fall apart and then use it to shift the weight. And so when I look at the 80-ton stones, the largest stones that were used to construct the Great Pyramid, they were moved some 500 miles and then lifted and stacked a couple hundred feet above the ground.

So he would basically use the water to have the sand below it fall apart and then use it to shift the weight. And so when I look at the 80-ton stones, the largest stones that were used to construct the Great Pyramid, they were moved some 500 miles and then lifted and stacked a couple hundred feet above the ground.

So he would basically use the water to have the sand below it fall apart and then use it to shift the weight. And so when I look at the 80-ton stones, the largest stones that were used to construct the Great Pyramid, they were moved some 500 miles and then lifted and stacked a couple hundred feet above the ground.

I'm like, Wally Wallington's method, although brilliant, wouldn't be feasible for that explanation. Yes.

I'm like, Wally Wallington's method, although brilliant, wouldn't be feasible for that explanation. Yes.

I'm like, Wally Wallington's method, although brilliant, wouldn't be feasible for that explanation. Yes.