When a cat poops it's meow mix into the pie monkey squirrel, then you will have to use a pooper scooper so that the evil yungmai don't eat your fart fobbits.
An EM wave is caused by an energy source, such as something as big as a supernova or something as small as an electron changing in speed. I would say the change in the energy level of the energetic particle that causes the wave determines the frequency of the wave. +++ Whilst you may be right about the quantum physics, the frequency of the wave is that of the energy source, be it in a star or a radio transmitter, driving it.
No, the de Broglie wave is not an electromagnetic wave. It is a wave associated with particles, such as electrons and other subatomic particles, and is used to describe their wavelike behavior. electromagnetic waves, such as light, are different phenomena that involve oscillating electric and magnetic fields.
Light is an electromagnetic wave. It consists of electric and magnetic fields that oscillate perpendicular to each other and to the direction of the wave's propagation. This is in contrast to mechanical waves, like sound waves, which require a medium to travel through.
The gamma ray is not a particle but is just an EM wave that transmits energy.
Gamma rays and X-rays are both forms of electromagnetic radiation that have high energy and short wavelengths. They are both used in medical imaging and radiation therapy. Additionally, they both have the ability to penetrate through materials, such as tissues and bones, making them useful for various applications.
X-rays
X-rays
Radio waves. But the question should be, "What is one type of low energy electromagnetic wave?"
in electromagnetic spectrum, the number of waves that pass a certain point in one second is the wave's what
Yes, electromagnetic waves carry energy. This energy is in the form of oscillating electric and magnetic fields that can transfer energy from one place to another. The amount of energy carried by an electromagnetic wave is proportional to its frequency.
Good question! Electromagnetic energy is transferred. Because wave is nothing but a passage of disturbance produced at one point to the other by wave propagation. As electric and magnetic variations lead to building up of other forms of energy we consider this as transfer of electromagnetic energy
In empty space, an electromagnetic wave can only travel at one speed - the speed of light.In empty space, an electromagnetic wave can only travel at one speed - the speed of light.In empty space, an electromagnetic wave can only travel at one speed - the speed of light.In empty space, an electromagnetic wave can only travel at one speed - the speed of light.
Sound is really an example of wave propagation of energy. Energy could be transported by two modes. One is by the particles. A good example is electrical energy in the form of current is carried over by the particles such as electrons. The other one is by wave propagation. Wave too is further divided into mechanical and electromagnetic. Mechanical wave badly needs a material medium to get propagated but electromagnetic does not need a material medium. Sound is an example for mechanical wave and light is an example for electromagnetic wave.
No, eletromagnetic waves propagate in two planes (eletro-magnetic) and can propagate in a vacuum. Water waves, on the other hand, are dependant on matter to transfer energy, making it a mechanical wave, not an eletromagnetic one.
Radiant heat is electromagnetic radiation. Thermal heat is the micro kinetic energy of the component atoms or molecules of a material substance. The "or" of the question can not be answered because there is no "or" involved.
Electromagnetic waves transport energy from one place to another. The energy carried by these waves can manifest as light, heat, or even radiation, depending on the frequency and intensity of the wave.
Yes, electromagnetic waves transfer energy through oscillating electric and magnetic fields. These waves can travel through a vacuum and carry energy from one place to another. The amount of energy carried by an electromagnetic wave is proportional to its frequency.