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.
To find the number of photons being radiated per second, you need to calculate the energy of each photon first. Since the light bulb emits 100 watts (100 joules per second), and each photon has an energy of about 4.86 x 10^-19 joules for visible light, you can divide the total energy emitted per second by the energy of each photon to find the number of photons emitted.
The intensity of light is directly related to the number of photons present. Higher intensity light has more photons, while lower intensity light has fewer photons. Each photon detected carries a discrete amount of energy that contributes to the overall intensity of the light.
To calculate the number of photons per second emitted by the laser, we first need to find the power of the laser. Power is given by energy divided by time, so 0.53 J / 32 s = 0.01656 Watts. Next, we need to convert this power into the number of photons emitted per second using the relationship (E = n \cdot h \cdot f), where E is the energy of a single photon, n is the number of photons per second, h is Planck's constant, and f is the frequency of the photons emitted by the laser.
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.
A source of blue light would need to emit more photons per second to produce the same amount of energy as a source of red light. This is because blue light has higher energy photons, so fewer photons are needed to achieve the same total energy output as red light, which has lower energy photons.
That's really going to have something to do with the brightness of the source. Whatever color you want to talk about, the sun probably turns out more photons of it every second than a kitchen match does.
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.
The size of the human cells vary widely. The number of molecules will also vary. You have to apply the equation of Albert Einstein. That is E = m*c squared. The number of photons will be astonishingly high.
1 foot per second = 0.3048 meters per second.
0.000300405757 mph per second.
It equals 9.67 metes per second.
.10 meters per a second equals 10 meters per a second