the lowest frequency Lester was here
Those with the lowest frequency / longest wavelength.
The answer is low frequency and long wavelength.
Photons with the lowest energy have the lowest wavelength. These photons with lowest energy also have the lowest frequency compared to higher energy ones.
Electromagnetic waves with low energy have:
apex: longest wavelength :0)
ELF. Radio signals in this band have lower frequencies than the lowest audible sound waves.
A photon that has less energy than another photon will also have:* Less frequency
* A longer wavelength
The longest Wavelength (Apex)
Wavelength
Lowest Frequency
If it is a mechanical wave, then the lower amplitude waves would have less energy. If you are talking about electromagnetic waves, then higher frequency waves (shorter wavelength) have more energy, and lower frequency waves have less energy.
It is both. Since the electromagnetic waves have energy, they also have mass, due to the matter/energy equivalence. Incorrect. Electromagnetic waves have NO mass. Simply because something -- be it heat or a static magnetic field or an EM wave -- has energy, that does NOT mean it has mass. The equivalence of mass and energy is simply a statement that mass is one form of energy -- just like the others I mentioned. The statement, "Mass is a form of energy, therefore all other forms of energy also have mass" is as silly as saying, "A Jew is a type of human being, therefore all other types of human beings are also Jews."
So is the "heat" radiant heat, an electromagnetic wave? (Heat is used to mean many things.) Electricity gets turned into the electromagnetic infrared (heat).
Most waves all require something with mass to be transmitted. However, electromagnetic waves carry energy in the form of photons, which are massless. Since photons are massless, they are not considered matter, but they do indeed carry energy. (This is why something feels warmer when the sun shines on it.) Electromagnetic waves range anywhere from radio waves, microwaves, and the common visible light waves, to x rays, and gamma rays.
In general, higher frequency waves carry more energy than waves of lower frequency if their amplitudes are equal. This is absolutely true of electromagnetic waves, and can probably be most easily demonstrated there.
I would call it an electromagnetic wave, or electromagnetic energy.
To increase the intensity, if that's what you mean, more energy is required. That would also mean that the electromagnetic wave carries more energy.
An electromagnetic wave, such as light.An electromagnetic wave, such as light.An electromagnetic wave, such as light.An electromagnetic wave, such as light.
The wave is called an electromagnetic wave.
No, an electromagnetic wave is NOT a compressional wave. An electromagnetic wave is best described as a transverse wave. Remember that in a compressional wave, the energy moves parallel to the medium of the wave, while in a transverse wave, the energy moves perpendicular to the medium.
Electromagnetic wave
Frequency determines the scalar energy of electromagnetic wave, E= hf=hc/r.
Electromagnetic waves transfer energy.
It is a high energy electromagnetic wave.
That refers to the energy in an electromagnetic wave.
Radio waves. But the question should be, "What is one type of low energy electromagnetic wave?"
Yes, more or less. James Clerk Maxwell predicted that an electromagnetic wave would propagate at the speed of light. Therefore, he also suspected that light was an electromagnetic wave. This was confirmed later.Yes, more or less. James Clerk Maxwell predicted that an electromagnetic wave would propagate at the speed of light. Therefore, he also suspected that light was an electromagnetic wave. This was confirmed later.Yes, more or less. James Clerk Maxwell predicted that an electromagnetic wave would propagate at the speed of light. Therefore, he also suspected that light was an electromagnetic wave. This was confirmed later.Yes, more or less. James Clerk Maxwell predicted that an electromagnetic wave would propagate at the speed of light. Therefore, he also suspected that light was an electromagnetic wave. This was confirmed later.