Frequency of 1000 Hz.
(Wavelength of 300 kilometers.)
frequency of 1000 Hz.
Frequency: Electromagnetic waves differ in frequency, with radio waves having lower frequencies than visible light waves. Wavelength: Electromagnetic waves differ in wavelength, with gamma rays having shorter wavelengths than microwaves.
A photon is formed when an electron transitions to a lower energy level within an atom or molecule, releasing energy in the form of electromagnetic radiation. This energy is carried by the photon as a discrete particle-like bundle of electromagnetic radiation.
The types of electromagnetic waves that exist include radio waves, microwaves, infrared, visible light, ultraviolet, X-rays, and gamma rays. These waves vary in frequency and energy, with radio waves having the lowest frequency and energy, and gamma rays having the highest.
Gravitational force and electromagnetic force can act on an object without having to physically touch it. Gravitational force is the attraction between two masses, while electromagnetic force is the force between electric charges or magnets.
Yes, resonance can occur between two objects with the same frequency when one object vibrates at the natural frequency of the other, causing it to vibrate with greater amplitude. This phenomenon is often seen in musical instruments when a string or air column vibrates at a specific frequency, creating a resonant sound.
Resonator
By electron having low speed, it means when electron travels through a good vacuum with no block of matter nearby thus having less distraction, eg-electron passing through an old fashioned television. But by electron having high speed, it means when electron travels on a rough vacuum and with blocks of matter . So that when they are been extracted from matter, more force are added their by being very fast. Eg-electron comming out of an electron gun. innocent somtoo madonna
In Compton scattering, the recoil electron refers to the electron that is ejected from an atom due to the impact of a high-energy photon. This electron carries some of the energy and momentum of the incident photon, and its direction and energy are altered as a result of the scattering event. The recoil electron plays a crucial role in determining the overall energy distribution of the scattered photons.
The electron is the smallest having about 1/1836th the mass of a proton or neutron, which means that basically an electron has no mass. The neutron and proton weigh the same both having a mass of 1.
Frequency: Electromagnetic waves differ in frequency, with radio waves having lower frequencies than visible light waves. Wavelength: Electromagnetic waves differ in wavelength, with gamma rays having shorter wavelengths than microwaves.
A photon is formed when an electron transitions to a lower energy level within an atom or molecule, releasing energy in the form of electromagnetic radiation. This energy is carried by the photon as a discrete particle-like bundle of electromagnetic radiation.
Radiation can excite an electron sufficiently for the electron to leave the atom, thus having an ionizing effect.
It generates an oscillatory output signal without having any input source
The atom where we are most likely to find an electron. this area is called the electron cloud.
When an atom gains an electron to fill its valence shell, it becomes negatively charged and is called an anion. An anion has a net charge of -1 due to the additional electron it gained.
proton,newton and electron
In rubidium, having a larger atomic radius, the attraction force between the atomic nucleus and and the electron from outermost shell is lower.