That is the "gamma" line of the Lyman series: 94.97 nanometers.
If it does, it is not very effective. MOST are designed to explode when they are more than 1000 ft above the ground.
9,192,631,770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium 133 atom
It gives off a photon of energy.
Argon is used to produce violet lights. Electrons in argon atoms use energy from the firework explosion to make the transition from the ground state to an excited state. Their return to the ground state results in the emission of violet light.
chromatic aberration is due to the change in n, which is a function of the wavelength. different wavelength--> different n--> different refraction-->different angle-->this is spectrograph.
Drops to the ground state. Use this formula. Hydrogen has a 1 Z number. Frequency = (3.29 X 1015 Hertz) * Z2 * (1/Nf2 - 1/Ni2) To keep it positive, Frequency = (3.29 X 1015 Hertz) * 12 * (1/22 - 1/02) = 8.23 X 1014 Hertz emitted -------------------------------------
91.2 nm
1.94 x 10-18 Joules
The ground state electron configuration of hydrogen is 1s1.
how is Hydrogen extracted from the ground
The ground state electron configuration of the hydrogen atom is 1s1, and for helium it is 1s2.
Energies in such a case are proportional to Z^2. See http://en.wikipedia.org/wiki/Rydberg_constant So for Z=4, Z^2=16. So the energy is 16 rydberg.
air
an atom
Unless you mean hydrogen, I need the Z number ( atomic number) Formula. ( ground state is 1 ) Hertz = (3.29 X 10^23 Hz) * Z^2 * (1/nf^2 - 1/ni^2) final - initial in that parenthesis, so 1 - 2, so to speak then wavelength = speed of light/Hertz
The ground meat has more surface area available to react with the hydrogen peroxide.
Hydrogen electron configuration will be 1s1.