Physics news

[lswot]

Re go wrong..... go wrong....

Error... Error... Must sterilize...

Henry

[Xjmt]

ANTIMATTER is made up of particles with equal but opposite characteristics of everyday particles of matter. Consider this analogy: dig a hole, and make a hill with the earth you’ve excavated. Hole and hill have equal but opposite characteristics-the volume of the earth in the hill, and that of the hole where the earth was removed. For particles, properties like electrical charge are opposite to their antiparticles-one positive, one negative. Also, antimatter will annihilate its matter counterpart in a burst of energy, just like the hill will fill the hole, leaving neither.
The universe seems to contain no significant amounts of antimatter, despite expectations that both should have been created equally during the big bang. So where did all the antimatter go? On possible explanation could be a subtle and unexpected difference in the properties of matter and antimatter, leading to a slight excess of matter which survived the initial cataclysm of matter-antimatter annihilation.
Experimenters at CERN,. Fermilab, SLAC and KEK are producing antimatter in particle accelerators to search for and study this difference. Antimatter also has real-life medical applications, such as positron emission tomography-PET scans. But because producing antimatter even in minuscule quantities is very difficult, it will unfortunately never power any future Starship Enterprise.

Michael Doser, CERN
from symmetry

[lswot]

Did you know.....when you dig a hole all the dirt you dug out wont fit back in?

[Henry J]

Stomp harder?

[lswot]

Stomp harder?

Nope.......

[Xjmt]

Well then you just forgot to squeeze all the air out.

[lswot]

Well then you just forgot to squeeze all the air out.

There ya go!

[Henry J]

Well, after all, to air is human...

[lswot]

[Xjmt]

QUARKS

Quarks are fundamental building blocks of matter. They are most commonly found inside protons and neutrons, the particles that make up the core of each atom in the universe. Based on current experimental evidence, quarks seem to be truly fundamental particles; they cannot be further subdivided.
Protons and neutrons mainly contain two types of quarks. These are called up and down quarks. For reasons still unknown, nature also designed two copies of each of the up and down quarks, identical except for having larger masses. The heavier copies of the quark are called charm and top quarks; the copies of the down quark are named strange and bottom quarks. Converting energy into mass, accelerators produce these heavier, short-lived quarks through particle collisions.
Quark masses span an enormous range. The heaviest quark is the top quark, which is about 100,000 times more massive than the two lightest types, up and down. The explanation for this hierarchy is a deep mystery, but the top quark’s huge mass could turn out to be a virtue. Probing the detailed properties of the top may shed light on the origins of mass itself in the universe.

JAY HUBISZ, Fermilab

[lswot]

A charming Quark? .....an oxymoron?

[Xjmt]

an oxymoron--->a person who spends too much time in Quark's.

[lswot]

an oxymoron--->a person who spends too much time in Quark's.

That ain't no oxymoron that's me! er......wait a minute.....

[Xjmt]

an oxymoron--->a person who spends too much time in Quark's.

That ain't no oxymoron that's me! er......wait a minute.....

The witness may be excused for extreme self-depredation.

[Henry J]

Speaking of quarks, the dog in Honey, I Shrunk the Kids was named Quark. Also the next door neighbor mother looked an awful lot like Joyce Summers, but younger (filmed in '89).

Henry