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Gestation Periods of Mammals

Gestation period is the time from fertilization to the actual birth in animals. In humans this period is 266 days or approximately 9 months. ...

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GestationPeriodsofMammals
Medicine

When and Why is Blood Typing Done?

Fans of the popular television show ER know how important blood type is in an emergency. 'Start the O-neg,' shouts Doctor Green, and the team swings into action. Green calls for type O, Rh-negative ... Continue reading

BloodTypes
Physics

X-Rays - Another Form of Light

A new form of radiation was discovered in 1895 by Wilhelm Roentgen, a German physicist. He called it X-radiation to denote its unknown nature. This mysterious radiation had the ability to pass through ... Continue reading

XRays
Physics

Nuclides & Isotopes

An atom that has an unbalanced ratio of neutrons to protons in the nucleus seeks to become more stable. The unbalanced or unstable atom tries to become more stable by changing the number of neutrons ... Continue reading

NuclidesIsotopes
Physics

Can You Miss the Earth?

Have you ever wondered why astronauts float in space? Well, it isn't because there is no gravity in space. Astronauts float because they are in constant free fall. If a baseball pitcher throws a ... Continue reading

Weightlessness

Antimatter Discovery

AntimatterDiscoveryIn almost every science fiction movie ever made, you are bound to hear about antimatter –– matter-antimatter propulsion drives, whole galaxies made of antimatter, and so on. Antimatter has been used in science fiction so much that some of us are not even sure if it is real or just imaginary. Here's a hint: antimatter is real and it was discovered a long time ago.

It all started with Paul Dirac, a British physicist, who in 1930 devised the first relativistic theory of the electron. Quantum mechanics had been worked out a couple of years earlier (by Dirac and by Heisenberg, independently), but Dirac’s 1930 theory contained math that exactly modeled electron behavior, both from the quantum mechanical and from the relativistic point of view (electrons moving at close to light speeds). His theory also predicted the existence of an anti-electron; a particle just like an electron, with the same mass but opposite charge (i.e. positive) and opposite magnetic momentum. If you fire such a particle into a magnetic field which is perpendicular to the particle’s trajectory, its path would curve opposite to that of an electron.

In 1932, Carl Anderson, a US physicist, while examining tracks of particles produced by cosmic rays, noticed one track whose curvature was identical to that of an electron but was flipped. Instead of curving to the right, it curved to the left. He named this positively charged electron a positron, the first antimatter particle discovered. Many anti-particles have been discovered since. The anti-proton was discovered in 1955 by E. Segre and his coworkers at the Lawrence Berkeley Laboratory using a high-energy particle accelerator. Most other anti-particles have been discovered at particle accelerators under carefully designed conditions. Many experimental groups have also reported constructing bigger entities than just anti-particles. In fact, whole anti-nuclei have been constructed, for example anti-hydrogen nuclei and an isotope of anti-helium.