85.0666667 feet per second
About 41 feet per second.
30 metres per second
Two people die per second. :(
0.033 miles per second or about 174.24 feet per second.
Increasing the intensity of light will increase the number of photons arriving per second. Increasing intensity has no effect on photon energy.
Given the wavelength of the photons from above, 3000 nm you just calculate how many joules each photon has and divide that into 100 joules per second.
More than 1. Describing the intensity of the beam will establish the number of photons per second striek a perpendicular surface of a given area.
You can easily calculate the energy that the photon detects per second by using the relation E=hc/w where E is energy in Joules, h is Planck's constant, c is the speed of light, and w is the wavelength.
Red light has less energy per photon than blue light, so to get the same energy we would need more red photons.
Not enough information. Different photons have a different amount of energy, so you need some information about the photons' frequency, or alternately, their wavelength.
Photons, our word for the properties of light that make it seem particle-like, are massless and travel about 186,000 miles per hour in a vacuum.
It means, how many vibrations per second are there.It means, how many vibrations per second are there.It means, how many vibrations per second are there.It means, how many vibrations per second are there.
1 foot per second = 0.3048 meters per second.
0.000300405757 mph per second.
Photons are light and while you do not specify the energy of this light (high energy light such as gamma radiation, X-Rays or UV light can be harmful) on balance a neutron source would be more harmful. This is because the neutrons have mass and on hitting you will tend to damage the atoms which make up your body.
It equals 9.67 metes per second.