And we came up with this analogy, and it seemed to work.

And what it does is rather special it gives mass to elementary particles.

What happened was the bactericide was formulated with minute traces of tin.

We often order these particles according to their properties, such as mass.

Number of particles

Particles

There have been many, many suggestions about possible constituents of the dark matter and, among them, two scenarios emerged as the most likely ones.

Why? Because it is a quantum phenomenon. It's quantum physics.

Particle Fountain Screen Saver

Particle density

Because if everything is made up of little particles and all the little particles follow quantum mechanics, then shouldn't everything just follow quantum mechanics?

Film Grain

less that the speed of light.

Particle Gravity Screen Saver

Particle size

One or both, who knows? Or it could be something completely different.

And less sunlight reaching the surface would tend to cool the planet.

The analogy is that these people in a room are the Higgs particles.

In the world of physics, they call appearance of the matter out of nothing,

What's that?

Particle Fountain Setup

So to explain that if you've got an elementary particle and you shine a light on it, then the photon of light has momentum, which knocks the particle, so you don't know where it was before you looked at it.

Feynman said, Forget all of that.

Let me play this again.

This is the essence of particle filters.

What's an elementary particle?

This geo engineering idea, in it's simplest form, is basically the following.

It has a very small mass and negative electric charge.

You have to normalize in the 2nd.

It ignores measurements, because the measurement sets the weighting factor in this resampling process, but with only 1 particle the same particle will be resampled no matter what.

But, once you start having many, many bodies new phenomena come into the play.

Micro background photons, which is energies of one four thousandth of an electron volt, but early times, the energies are correspondigly larger, and inflation happened when, particles had energies of ten to the sixteenth giga electron volt.

We can say, on average, this many particles are changing momentum on this wall in this amount of time.

Nuclei and nuclear reactions, of course.

Some, like aluminum oxide, tends to sequester the moisture.

This is roughly 25 by mass and this is why there's about 25 by mass of primordial helium.

In fact, it is completely uncertain as to where it is.

What I'll do next is to give you another program assignment.

Four Particle beam. Check. Three.

Same with this guy over here, and this guy might find itself over here.

So it's a prediction a prediction of a new particle.

So, you get 2 versions of P2, perhaps even 3 versions of P2, depending on the probabilities.

And, as of today, it's made of these things.

Besides, the stainlesssteel construction made the flux dispersal

In question 3 I'd like to quiz your intuition.