Want this question answered?
In terms of measurement they are different words for the same length - one one millionth of a meter. The term 'micron' in scientific use is considered obsolete.
We got the formula: speed of medium c = frequency f times wavelength lambda.lambda = c / f has a length unit.Frequency f is 1/time = c / lambda.That shows the difference between the wavelength lambda and the frequency f.
Ofcourse 23 micron is thicker than 11 micron.
What is "it"?What is it? Wire? Sheet metal? What?PolytheneIn the case of polythene, gauge can be converted to thickness by dividing by four to get the thickness in micron or dividing by 4000 to get the thickness in mm. Here are some common examples:100 gauge = 25 micron = 0.025mm 120 gauge = 30 micron = 0.03mm 200 gauge = 50 micron = 0.05mm 250 gauge = 62.5 micron = 0.0625mm 400 gauge = 100 micron = 0.1mm
.001 mm = 1 Micron
a ten micron filter will remove smaller particles from the system, but will also clog faster
delta_f = c * delta_lambda / (lambda*lambda) where delta_f is the bandwidth range, c is the light speed, delta_lamba is the wavelength range, and lambda is a certain wavelength. Therefore, delta_f = 3*10e8 * 0.1*10e-6 / (10e-6 * 10e-6) = 3*10e13Hz = 30THz
Hertz Antenna is lambda by 2 antenna & marconi antenna is lambda by 4 antenna...
0.45 is bigger than 0.2 it's that simple
In terms of measurement they are different words for the same length - one one millionth of a meter. The term 'micron' in scientific use is considered obsolete.
A micron is one millionth of a meter and therefore one thousandth of a millimeter.
I was gonna say 4.8 microns, but I thought that would be too obvious.
1 micron is 1/1000 th of a millimeter.
Micron is a metric unit of measurement and is one millionth of a meter. Mil is a unit of linear measurement in the FPS (Foot Pound Second) system. One mil is one thousandth of an inch.
The motto of Lambda Lambda Lambda is 'Follow the Twelve'.
Lambda Lambda Lambda was created on 2006-01-15.
Micron in plastic is the size of the gaps between particles in its structure. These are very tiny and will often block air and water.