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Billions and Billions

Nobody really knows how many brain cells anybody has, but typical estimates are around 200 billion. You've heard the late Carl Sagan talk about 'billions and billions of stars' in the universe. Think about this. Each brain cell has many connections with many other brain cells, by way of multi-branching dendrites and axons, communicating across a ...

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BillionsBillions
Biology

The Great Permian Extinction

More than 250 million years ago, when the current continents formed a single land mass, known as the Pangea and there was one super-ocean called Panthalassa, something extraordinary happened. Nearly ... Continue reading

PermianExtinction
Astronomy

Neutron Stars

Ordinary matter, or the stuff we and everything around us is made of, consists largely of empty space. Even a rock is mostly empty space. This is because matter is made of atoms. An atom is a cloud of ... Continue reading

NeutronStars
Biology

The Gingerbread Man

Did you know that gingerbread came about because of a smut disease of wheat? ... Continue reading

TheGingerbreadMan
Biology

The Strange Case Of Phineas Gage

Long before the advent of neuroscience, brain injuries have been used to deduce how the brain is organized into separate regions handling separate tasks. Consider the case of Phineas Gage, a ... Continue reading

PhineasGage

Nuclides & Isotopes

NuclidesIsotopesAn 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 and/or protons in the nucleus. This can happen in several ways: converting neutrons to protons, converting protons to neutrons, ejecting an alpha particle (two neutrons and two protons) from the nucleus. Whatever the mechanism, the atom is seeking a stable neutron to proton ratio. In changing the number of nucleons (protons and neutrons), the nucleus gives off energy in the form of ionizing radiation. The radiation can be in the form of alpha particles (2 protons and 2 neutrons), beta particles (either positive or negative), x-rays, or gamma rays.

Is the atom still the same element? Only sometimes. If there is a change in the number of protons, the atom becomes a different element with different chemical properties. If there is a change in the number of neutrons, the atom is the same element, but becomes a different isotope of that element. All isotopes of one element have the same number of protons but different numbers of neutrons. All isotopes of a certain element also have the same chemical properties but have varying radiological properties such as half-life, or type of radiation emitted.

What if the protons and electrons of an atom are unbalanced? Normally, the number of electrons and protons is the same, so the atom is balanced electrically. Sometimes electrons are added or removed, and the atom carries a negative or positive charge. These charged forms of an element are called 'ions' of the element. This change affects the way the atom reacts chemically, but does not affect the stability of the nucleus--the atom's radioactivity.