0
What else can I help you with?
Which EM waves has the highest frequency?
There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.
What radio waves are made of?
Radio waves are electromagnetic energy, similar to light, but of much longer wave lengths.
What are some similarities and differences between the light and sound waves?
Similarities: Both light and sound waves are forms of energy that travel in waves. They can both be reflected, refracted, and diffracted. Differences: Light waves can travel through a vacuum, while sound waves require a medium to travel through. Light waves are electromagnetic waves, while sound waves are mechanical waves that require a medium to propagate. Light waves travel much faster than sound waves.
What Gamma Radiation made of?
Gamma radiation is an electromagnetic wave, the same as all other kinds of light, except that it has much more energy. Electromagnetic waves are waves of electrical and magnetic fields which travel through space, much like waves through water.
What is different between electromagnetic and matter waves?
Electromagnetic waves are very much different from the matter waves and in many ways. a) Speed of matter waves is very much less than the speed of electromagnetic waves. b) Matter waves cannot be radiated in empty space unlike electromagnetic waves. c) Matter waves are just associated with the particle, not emitted by it Matter waves have smaller wave lengths than electromagnetic waves
What is the energy of electromagnetic waves such as light?
Energy varies with the wavelength. The shorter the wavelength the higher the energy. Ultraviolet much more energetic than red light.
Explain why the energy of infrared waves is greater than the energy of radio waves?
The energy of infrared waves is greater than the energy of radio waves. This is because infrared waves has a smaller wavelength compared to radio waves. The smaller the wavelength, the higher the energy.
What is the significance of the electric field amplitude in the context of electromagnetic waves?
The electric field amplitude in electromagnetic waves represents the strength of the electric field at a given point. It is important because it determines the intensity of the wave and how much energy it carries. Higher electric field amplitudes correspond to more powerful waves with greater energy.
Does energy dissipate from electromagnetic waves?
Yes, energy can dissipate from electromagnetic waves as they travel through a medium or encounter obstacles, leading to weakening or attenuation of the wave. This energy dissipation can manifest as heat generation or conversion to other forms of energy.
How much pollution does a electromagnetic wave cause?
Electromagnetic waves only cause sound pollution because they are sound waves.
Are gamma ray used in lasers?
Conventional lasers do not emit gamma radiation. Lasers use electromagnetic waves in the visible spectrum; this is light that you can actually see. Gamma rays are electromagnetic waves with much more energy and much higher frequency than visible light.
How are sound waves and eletromagnetic waves different?
Sound waves are mechanical waves that require a medium to propagate, such as air or water, while electromagnetic waves can travel through a vacuum, like in space. Sound waves are longitudinal waves that transmit energy through the vibration of particles, while electromagnetic waves are transverse waves that consist of oscillating electric and magnetic fields. Additionally, sound waves move at a much slower speed than electromagnetic waves.
