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- •Topic 2: atoms
- •1. Atoms Around Us
- •2. Structure
- •Smaller than atoms?
- •Orbital basics
- •Where are the electrons?
- •4. Ions
- •Ion characteristics
- •Electrovalence
- •5. Electrons charge it!
- •Power up
- •6. Isotopes neutron madness
- •M essing with the mass
- •Returning to normal
- •7. Neutron n either here nor there
- •One special element
- •8. Bonding bonding basics
- •9. Compounds compound basics
- •Different bonds abound
- •10. Compound names whole lotta rules going on
- •11. Advanced Ideas dangerous particles
- •Harnessing the energy
- •A toms from the mirror universe
11. Advanced Ideas dangerous particles
Radioactivity
occurs when an atomic nucleus breaks down into smaller particles.
There are three types of particles: alpha, beta, and gamma. Alpha
particles are positively charged, beta particles are negatively
charged, and gamma particles have no charge. The particles also have
increasing levels of energy, first Alpha, then Beta, and finally
Gamma, which is the fastest and most energetic of all the emission
particles.
The
term half-life
describes the time it takes for the amount of radioactivity to go
down by one half. Let's say you have some uranium (don't try this at
home) and it's radioactive. When your measurements tell you that the
level of radioactivity has gone down by one-half, the amount of time
is the half-life. Every element has its own unique half-life. The
half-life of uranium-235 is 713,000,000 years. The half-life of
uranium-238 is 4,500,000,000 years. That is a long time to wait for
the radioactivity to decrease.
Harnessing the energy
Nuclear energy is the energy released when the nuclei of atoms split or are fused. The nucleus is made up of protons and neutrons. Nuclear forces hold all of the pieces together. Fusion is when two nuclei come together. Fission is when one nucleus is split into two or more parts. Huge amounts of energy are released when either of these reactions occurs. Fusion reactions create much of the energy given off by the Sun. There are even smaller particles that make up the protons and neutrons that physicists are studying every day.
A toms from the mirror universe
Since we are talking a little about atomic and nuclear physics, we wanted to tell you about antimatter. It is not just found in television shows. Scientists have proved that it is real. While a regular atom has positive and neutral pieces (protons/neutrons) in the nucleus and negative pieces in orbiting clouds (electrons), antimatter is just the opposite. Antimatter has a nucleus with a negative charge and little positive pieces in the orbits. Those positively charged pieces are called positrons.