nickdk said:E = hv
v=1.614x10^13 hz
h = 6.63x10^-34
E = 1.07x10^-20 J
E/1000 = kJ
E = 1.07x10^-23 kJ
per mole
1.07x10^-23 * (6.02 x 10^23 atoms/mol)
E = 6.44 kJ/mol
hope that is clear, any questions let me know :)
"Calculating IR Energy: 1.614 x 107 MHz" refers to the process of determining the amount of infrared (IR) energy emitted by a source at a frequency of 1.614 x 107 megahertz (MHz).
Calculating IR energy is important in understanding the amount of thermal radiation emitted by a source. It can help in various applications such as designing heating systems, studying climate change, and analyzing the energy efficiency of materials.
IR energy is calculated using the formula E = hν, where E is the energy in joules (J), h is Planck's constant (6.626 x 10-34 J*s), and ν is the frequency in hertz (Hz). To convert from MHz to Hz, multiply the frequency by 1,000,000.
The amount of IR energy emitted can be affected by the temperature and composition of the source, as well as external factors such as atmospheric conditions and the presence of other materials that may absorb or reflect the energy.
IR energy can be measured using instruments such as infrared cameras, spectrometers, and radiometers. These devices detect and measure the thermal radiation emitted by a source and convert it into a digital output or display.