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The rate at which light energy flows through a giver area of space is referred to as intensity
Amplitude.Amplitude is directly related to the acoustic energy or intensity of a sound. Both amplitude and intensity are related to sound's power. All three of these characteristics have their own related standardized measurements
The Net energy = the difference between the energy put in and the energy given out.
According to that description, you're talking about a "power flux". I don't know where that's used.
There is more energy in the battery than that given off as light and heat for two reasons. 1) Some energy is lost due to resistance in the battery. As current flows, energy is lost to heating of the battery due to this internal resistance. 2) As the battery operates, the voltage falls until it is too low to heat the bulb to incandescence. Yet energy remains in the battery, but this last energy is at too low a voltage to be useful.
The rate at which light energy flows through a giver area of space is referred to as intensity
intensity
The answer is 'luminous intensity' which, in SI, is expressed in lumens.
Amplitude.Amplitude is directly related to the acoustic energy or intensity of a sound. Both amplitude and intensity are related to sound's power. All three of these characteristics have their own related standardized measurements
1.5 volts means 1.5 joules/coloumb.
The Net energy = the difference between the energy put in and the energy given out.
short waves
It's the amount of energy given out by the sun, and the energy received by the earth. Within that is the energy reflected and the energy given off from the earth.
They are directly related through equation E = mc2. In each fission the nucleus loses a little mass and releases an equivalent amount of energy.
According to that description, you're talking about a "power flux". I don't know where that's used.
No, temperature is the amount of thermal energy in a given amount of a substance.
All of the energy in the battery, or most of it, is eventually given off as heat and light.