# Is there any connection between the wave length and spin of a photon?

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Those who are looking for an answer to the question «Is there any connection between the wave length and spin of a photon?» often ask the following questions:

### 👋 Is there a connection between the underdark and wave echo cave?

- There's no mention
**of the**Underdark in**the**Lost Mine**of**Phandelver adventure.**The**only references to**the**Underdark and**Wave Echo Cave**on the internet are references to people adding it. So there does not seem to be a published connection. However... how**do**you prove a negative?

### 👋 What is the relation between electromagnetic wave and photon?

- EM radiation is the sum of all emitted photons from the involved electrons, protons and neutrons of a body. All bodies emit infrared radiation, beginning with approx. 500°C they emit visible light, first glowing in red and then shining brighter and brighter.

- What is the difference between wave length and wave energy?
- What is the relation between wave length and wave height?
- What is the relationship between wave amplitude and wave length?

### 👋 Relationship between frequency wave length and wave speed?

The wavelength is equal to the speed divided by the frequency.

- Are there any bank connection problems with wave?
- What is the relationship between wave energy wave length and wave frequency?
- What is the relationship between frequency wave speed and wave length?

1 other answer

No, the spin of different particles is a constant in each case; for example the spin of a photon is always 1.

We've handpicked 23 related questions for you, similar to «Is there any connection between the wave length and spin of a photon?» so you can surely find the answer!

Is a photon a wave packet?You can squeeze it and stretch it and even chop it up, but a photon is still a photon, a particle of light… The wave function for a single photon is usually a **“wave packet”**–nearly zero everywhere except in a narrow range of space and time.

- Light is an
**electromagnetic wave:**light is emitted and absorbed as a stream of discrete photons, carrying packets of energy and momentum. How can these two statements be reconciled? Similarly, while light is a wave, it nevertheless travels along straight lines or rays, allowing us to analyse lenses and mirrors in terms of geometric optics.

#### What is the relation between electromagnetic wave and photon?

- EM radiation is the sum of all emitted photons from the involved electrons, protons and neutrons of a body. All bodies emit infrared radiation, beginning with approx. 500°C they emit visible light, first glowing in red and then shining brighter and brighter.

- Photons are the particles of light, but light on its own shows wave-like behavior, which explains why it is both a
**wave and a particle**. (Image: Ezume Images/Shutterstock)

Vaguer words than Kuo's have been used to describe the photon. It's **a wave and a particle of light**, or it's a quantization of the electromagnetic field.

To decrease antenna height For transmitting a signal of wavelength λ the antenna height must be λ/4. So if we want to send a 1 Hz (λ=3*10^8 m) signal ( very very low frequency) using an antenna , its height must be 75,000 Km ( impossible to build such a huge antenna ). If the same signal is modulated to some high frequency say 88 MHZ ( λ = 3.4 m ) , antenna height needed is 0.8522 m (quite easy to construct !!! ) (88 MHZ is the starting range of Frequency modulation which exists upto 108 MHZ).

The wavelength is the size of the wave in meters. The frequency is the number of waves that occur in a scond.

The higher the frequency the shorter the wavelength.

Wavelength and wave frequency are related by the equation- Speed of wave= frequency x wavelength

Frequency is inversely proportional to the wave length, thus saying the shorter the wave length the higher the frequency and vice versa.The frequency is the number of waves within a time period. As the frequency within that time period increases, the number of waves increases, therefore the width of each wave (wavelength) within that time period has to decrease. Therefore:

- As the wave length increases, the frequency decreases
- As the wave length decreases, the frequency increases

The shorter the wavelength the higher the energy.

em wave is generated by photons which emitter the energy in the form of light

Hence, **light is an electromagnetic wave**. Light consists of photons; and thus each photon carries a unit of energy. This behavior is demonstrated by the photoelectric and Compton effects. Since light is an electromagnetic energy, photons must also carry electromagnetic field and a unit of it.

**Light**behaves prominently like**a wave**, but it is also considered to be comprised**of**tiny packages**of**energy known**as**photons. Photons carry**a**fixed amount**of**energy but have no mass. The emission of free electrons from a metal surface when light is shone on it is called the photoemission**or**the photoelectric effect.

wave length and frequency are the product of the wave speed, so the wave speed is a constant variable and the other two are inversely proportional the wave length increases, as the frequency decreases

Wavelength lambda is equated to the ratio of the speed of the wave to the frequency of the wave. So L = c / f Here L the wavelength, c the speed of the wave and f the frequency of the wave

depends on color

Definition: Wavelength can be defined as **the distance between two successive crests or troughs of a wave**. It is measured in the direction of the wave.

X-rays are found in the region of wavelengths between 0.01 to 10 nm (10-11m to 10-8m).

Visible light wavelengths fill the electromagnetic spectrum between red wavelengths and violet wavelengths.

Does wave length affect wave speed?No....

is the distance between two vibrations or pulses of the wave..it is expressed by lamda λ and measured in m . it is equal to = v x t = v/f v= speed of wave t= period f= frequency

Wavelength is the distance from any point on a wave to the same point on the next wave. The shape of the wave doesn't matter.