In a vacuum, electromagnetic radiation travels at a speed of 300,000,000 meters/second. Just convert the picoseconds to seconds, then multiply by the speed of light, to get the distance (in meters).
3.00 * 10^8 meters/second * 5*10^-5 seconds= 15000 meters
2.99607843*10^-6* 25fs (whatever is giving to you on the mastering chemistry) = your answer, in this case: 7.49*10^-6
Use the formula distance = speed x time. The speed of electromagnetic radiation = the speed of light = 300,000,000 meters / second.
1 picosecond = 10^-12 second
Distance = (speed) x (time)
Distance = (3 x 10^8 m/s) x (0.48 x 10^-12 sec) = 0.144 millimeter .
The distance is 1,44 mm for light.
First, convert the time to seconds and use the formulas d = v*t and v = lambda*f. After plugging in the values of v and t, one can find that the value of lambda is equal to 3.181 meters, which is how far the electromagnetic radiation travels in 55.0 microseconds.
(2.996078431*10^-7)*25=7.49*10^-6 meters
Electromagnetic radiation can behave either as a wave or a particle. A wave particle is duality. Electromagnetic energy results from acceleration of a charge EM radiation can travel through a medium or vacuum.
Yes.
Electromagnetic waves or radiation
First, convert the time to seconds and use the formulas d = v*t and v = lambda*f. After plugging in the values of v and t, one can find that the value of lambda is equal to 3.181 meters, which is how far the electromagnetic radiation travels in 55.0 microseconds.
The distance that electromagnetic radiation travels in 10.1 FS is the distance between the two points that it reaches. It can be different depending on how fast it is traveling.Ê
In a vacuum, electromagnetic radiation travels at a speed of 300,000,000 meters/second. Just convert the picoseconds to seconds, then multiply by the speed of light, to get the distance (in meters).
Yes, electromagnetic radiation does travel as a transverse wave
(2.996078431*10^-7)*25=7.49*10^-6 meters
In 10.7 femtoseconds, em radiation will travel 3.208 E -6 meters. EM radiation travels at the speed of light, or 299, 792, 458 m/s.
Yes, electromagnetic radiation does travel as a transverse wave
Radio waves, like light, is a form of electromagnetic radiation. Other types of electromagnetic radiation include X-rays, infrared radiation, and gamma rays. All electromagnetic radiation travel at the speed of light.
Yes, electromagnetic radiation does travel as a transverse wave
Electromagnetic radiation travels in straight lines.
Electromagnetic radiation can behave either as a wave or a particle. A wave particle is duality. Electromagnetic energy results from acceleration of a charge EM radiation can travel through a medium or vacuum.
Yes it can, and it does.