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When you increase the wavelength what happens to the amplitude?
Increasing the wavelength typically does not have a direct effect on the amplitude of a wave. The amplitude of a wave is usually determined by the energy or disturbance that created the wave, which is independent of its wavelength.
Why you can not easy to observe interference effect in the light waves?
Interference effects are not easily observed in light waves because they require precise conditions such as coherent sources and a controlled environment without disturbances. Any variation in the sources or the medium can disrupt the interference pattern, making it difficult to observe in everyday situations. Additionally, the wavelength of light is very small, making the interference effects more challenging to detect without specialized equipment.
How does constructive and destructive interference effect amplitude in waves?
Constructive interference occurs when waves align to increase amplitude, while destructive interference occurs when waves align to decrease amplitude. Constructive interference results in a larger combined amplitude, while destructive interference results in a smaller combined amplitude, or even complete cancellation.
What will happen to an object wavelength as the object move toward you?
As an object moves towards you, its wavelength will decrease due to the Doppler effect. This means that the frequency of the waves will increase, resulting in a higher pitch for sound waves or a blue shift for light waves.
What is threshold wavelength?
Threshold wavelength refers to the minimum wavelength of light required to start a specific phenomenon, such as photoelectric effect or emission of electrons from a metal surface. Below this threshold wavelength, the desired effect does not occur.
Does the Doppler effect increase wavelength and decrease frequency?
Yes
When you increase the wavelength what happens to the amplitude?
Increasing the wavelength typically does not have a direct effect on the amplitude of a wave. The amplitude of a wave is usually determined by the energy or disturbance that created the wave, which is independent of its wavelength.
What is Compton effect?
The increase in wavelength of electromagnetic radiation, especially of an x-ray or a gamma-ray photon, scattered by an electron.
How are the energy and wavelength of electro magnetic radiation related?
The Relationship is the 'Flux' of the magnetic field.Changing the amount of energy will not effect the wavelength (except to choke off the field when it becomes too dense)and increasing the wavelength will increase the energy density (flux)
How does temperature effect wavelength?
How does temperature affect wavelength?
Why you can not easy to observe interference effect in the light waves?
Interference effects are not easily observed in light waves because they require precise conditions such as coherent sources and a controlled environment without disturbances. Any variation in the sources or the medium can disrupt the interference pattern, making it difficult to observe in everyday situations. Additionally, the wavelength of light is very small, making the interference effects more challenging to detect without specialized equipment.
How does constructive and destructive interference effect amplitude in waves?
Constructive interference occurs when waves align to increase amplitude, while destructive interference occurs when waves align to decrease amplitude. Constructive interference results in a larger combined amplitude, while destructive interference results in a smaller combined amplitude, or even complete cancellation.
What will happen to an object wavelength as the object move toward you?
As an object moves towards you, its wavelength will decrease due to the Doppler effect. This means that the frequency of the waves will increase, resulting in a higher pitch for sound waves or a blue shift for light waves.
What is threshold wavelength?
Threshold wavelength refers to the minimum wavelength of light required to start a specific phenomenon, such as photoelectric effect or emission of electrons from a metal surface. Below this threshold wavelength, the desired effect does not occur.
What effect would lower wavelength have on the emitted photoelectrons?
Lowering the wavelength of incident light increases its energy, which in turn can increase the kinetic energy of the emitted photoelectrons. This is in line with the photon energy equation E=hf, where E is energy, h is Planck's constant, and f is frequency (which is inversely proportional to wavelength).
What is the effect of short-wavelength radiation?
Short-wavelength radiation, such as ultraviolet and X-rays, can have harmful effects on living organisms. It can damage DNA, cause skin burns, and increase the risk of developing skin cancer. Protection measures, like sunscreen and protective clothing, are important when exposed to short-wavelength radiation.
When was The Compton Effect created?
The Compton Effect, also known as Compton scattering, was discovered by physicist Arthur Compton in 1923 and was confirmed experimentally in the following years. This effect describes the increase in wavelength of X-rays when they collide with electrons.
