PH2 DEFINITIONS
- Created by: Gen Kirk
- Created on: 08-01-16 09:22
U | D | D | S | M | O | B | C | E | Y | J | T | T | P | U | B | Q | Y | O | N | P |
U | S | S | B | T | H | U | T | V | M | P | P | H | O | V | K | Y | X | G | N | P |
S | H | D | S | I | L | N | L | A | W | O | O | R | I | N | C | S | T | X | B | J |
E | A | E | G | D | O | R | O | W | G | T | P | E | T | G | K | U | J | S | R | B |
V | R | G | V | R | N | L | V | A | X | E | U | S | N | C | I | L | B | U | V | R |
A | C | A | T | I | G | F | N | F | U | N | L | H | E | Q | J | F | B | P | P | Y |
W | V | T | P | O | I | X | O | O | Y | T | A | O | R | B | U | Q | W | E | O | U |
T | P | L | P | E | T | U | R | Y | F | I | T | L | R | E | M | L | L | R | D | R |
N | S | O | H | T | U | M | T | T | N | A | I | D | U | R | L | S | J | C | Q | N |
E | H | V | V | D | D | F | C | I | Y | L | O | F | C | B | H | K | D | O | Q | G |
M | T | G | S | Q | I | V | E | C | K | D | N | R | C | J | L | E | N | N | N | D |
E | S | N | M | E | N | C | L | O | C | I | I | E | I | D | G | N | M | D | B | Q |
C | P | I | Y | M | A | N | E | L | S | F | N | Q | R | J | B | I | D | U | D | Q |
A | M | P | D | B | L | E | E | E | V | F | V | U | T | N | W | P | P | C | S | K |
L | G | P | A | U | W | J | H | V | W | E | E | E | C | L | Y | P | A | T | F | C |
P | A | O | L | P | A | C | T | E | L | R | R | N | E | O | N | U | O | I | Q | M |
S | E | T | H | J | V | M | N | H | P | E | S | C | L | K | U | H | H | V | K | R |
I | D | S | U | G | E | R | E | T | M | N | I | Y | E | H | X | V | V | I | J | C |
D | X | K | C | T | T | P | A | N | W | C | O | W | H | T | C | S | C | T | F | T |
E | N | X | W | C | F | S | S | U | C | E | N | G | T | V | C | E | J | Y | M | X |
E | F | P | O | E | J | K | T | Q | X | O | J | X | B | M | B | V | X | L | O | K |
Clues
- in a longitudinal wave the oscillation of the particles are parallel to the direction of propagation of energy (12, 4)
- is the distance traveled, by the wave front, per unit time (3, 8, 2, 1, 4)
- the rate of flow of charge past a point (8, 7)
- the term given to the phenomenon, by which a metallic conductor behaves as if it has zero resistance (17)
- this is the distance a particle, subject to wave motion, is moved, from its mean position (12, 5)
- this is the electric potential energy equivalent to the kinetic energy of an electron, emitted from a metallic surface. (8, 7)
- this is the electrical potential energy changed to other forms, when unit charge moves between two points (9, 10)
- this is the energy change when an electron moves through a potential differnece of 1 Volt. (3, 8, 4)
- this is the minimum frequency of a photon that will just emit an electron from the associated metal upon which it is incident (9, 9)
- this is where the number of atoms in the excited state (N{2}) exceeds that number in the ground state (N{1}) (10, 9)
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