Science doesn’t tell us anything.
But it’s the last place we should be.
The last place that we should turn for explanations of the world.
But science has some useful insights.
What do we think science is telling us about the universe?
And what does it actually say about us?
The first question we should ask is: what do we believe science is saying?
And that is, what does science tell us about us and how do we respond to it?
We should be very careful what we say and how we interpret it.
It is not always the best way to look at the world, but science has a lot to offer us.
The second question is, how can we get to know what we know?
We are human beings.
And there are people out there who are really smart.
They are very good at what they do.
And they know how to get things done.
They have got great brains, they have got a lot of experience.
They know how the world works, they know what to look for, and they have a very good understanding of the physical world.
What they don’t know is, there is a lot more out there.
It’s not just that the smartest of us know everything.
The other side of the coin is that we have to work hard to get our heads around that.
And if you are in a position of influence or power in your organisation, you can see that that is exactly what’s happening.
If you are a scientist, the question is not “What is science telling us?”
It is “What are we doing to understand this?
How do we change that?”
Science is not a matter of making predictions, but of learning how to make them.
If we understand that, we will be much more likely to do the right thing.
Science is about asking questions, and asking questions are what scientists do best.
There are some things science tells us about how to do that, but it is also about trying to find out what works and what doesn’t.
What we need is a new science of understanding, one that gives us a new way of looking at things, one based on what we actually do know.
And it’s not something we can just do.
We can’t just ask the scientists what we believe they know.
We have to do it ourselves.
Science has a long history of asking what we are.
It has been doing it for thousands of years.
When we first learnt that water boils at 212 degrees, that water was a lot hotter than it is now, it was a huge shock to the world’s science.
But the answer was very simple: water boils when the temperature drops.
The water boils as a gas, and as it cools, it condenses into steam.
The steam rises to the surface of the water, and that’s when we know the temperature of water is at 212.
That was very good.
So what was going on there?
It was very cold water, but there was something very interesting happening to the water that was keeping it at 212, even though it was still boiling.
So we looked at the water and we found that it was being held back.
What was going in?
The answer was: heat was acting on the water.
Heat is the building block of the solid world.
If the temperature is lower, the water becomes solid.
So the water was being cooled as it was heating up.
That cooling process was keeping the water at 212 Celsius.
And as the temperature increased, the temperature dropped further.
The liquid that was still rising would cool as it cooled, and eventually the water would start to flow.
As the temperature decreased, the heat would become more concentrated.
Eventually, the liquid would become a gas.
At 212C, the hydrogen atoms in the water started to condense, and the water became a liquid.
At that temperature, the pressure of the gas would be equal to the pressure exerted on the hydrogen molecules in the liquid.
But at 212C it would be much higher, and so the pressure would be greater than it was at 212°C.
At this temperature, if the temperature fell below 212C and the pressure rose to 212°, the solution would become super-critical.
It would become explosive.
At those temperatures, a great deal of energy was being released into the environment.
The air, the sea, the atmosphere would all be compressed to the point that it would melt.
If that happened, the air would become unstable.
At the extreme temperature of 212C the water itself would boil.
But that would happen very quickly.
So there was a very big difference in the temperature between the boiling water at that temperature and the boiling boiling water that is boiling at 212K.
At an equilibrium temperature, a supercritical state, the boiling liquid would cool to a point where it could no longer condense.
But once the boiling point reached 212K, the steam would start moving