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Rad T 110. Electromagnetic Radiation. The Wave Equation. Velocity = frequency x wavelength Remember, photons all travel at the speed of light, 186,000 miles/second so velocity is in effect a constant
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Rad T 110 Electromagnetic Radiation
The Wave Equation • Velocity = frequency x wavelength • Remember, photons all travel at the speed of light, 186,000 miles/second so velocity is in effect a constant • Consequently, any changes to either frequency or wavelength have to be accompanied by a change in the other.
So, if frequency increases then wavelength decreases. • Conversely, if frequency decreases then wavelength increases.
What is frequency? • Frequency is defined as the number of wave forms per second. • In the case of x-ray photons about 1019 cycles per second. • Frequency is a representation of energy. • As beam energy is increased, frequency increases.
Beam Energy • Beam energy is determined by kVp. • Therefore, the higher the kVp the higher the photon frequency. • The higher the kVp • The higher the beam quality • The harder the beam • The higher the penetrability of the beam
Wave-particle Duality • Higher energy photons act like particles. • Low energy photons act like waves.
Inverse Square Law • Addresses the issue of the divergent beam. • As the beam travels it diverges or spreads out. The further it travels the more spread out it becomes. • However, given that the same number of photons are in the beam their concentration or intensity will be diminished.
Single Phase Electric Current • Full • Half Voltage ripple
Three phase Electric Current • 6 pulse • 12 pulse Voltage ripple
Electromagnetic Induction • Faraday’s Law • An electric current is induced in a circuit if part of the circuit is in a changing (alternating) magnetic field. • Also, a magnetic field can be generated by alternating magnetic fields.
Transformers and Mutual Induction • Transformers work with AC current through the application of Faraday’s Law. • An AC electric current induces a varying magnetic field in a piece of iron (electromagnet). • Another piece of wire is wrapped around the iron. In this wire an electric current is induced. Why, because the magnet field is moving throughout the iron. • So, without an AC current you would not induce a varying magnetic field.
Step-down transformers • These transformers also work on the principle of mutual induction; however, their goal is to decrease the incoming voltage. • So, the secondary side has fewer windings than the primary side. • Any device you have at home that runs on batteries and AC has a step-down transformer. It is usually the little black box that gets hot.
Step Up Transformers • These transformers are intended to increase voltage. • Remember, incoming voltage is relatively low (<480 V) is in order to create kVp you are going to have to dramatically increase the voltage. • This is done by having more wires on the secondary side of the transformer than the primary side.
The primary side of the transformer is were the voltage comes in. • The step-up transformer can also be called a high-voltage or high-tension transformer. Closed core transformer
Types of Transformers in X-ray Circuits • Autotransformer • Has only one winding and works on the principle of self-induction (because of the single winding). • Step-up transformer, high voltage or high tension • Step-down or filament transformer • Both of these are generally shell type transformers and work using mutual induction.