This process is called light diffusion, where light is scattered in all directions upon emission. It results in a more uniform distribution of light throughout a space.
Scattering. The location inside the Earth where an earthquake begins is called the focus.
Scattering. The location inside the Earth where an earthquake begins is called the focus.
Radiation in a light bulb occurs when electrons move through the filament wire, releasing energy in the form of electromagnetic radiation (light) as they collide with atoms in the wire. This process generates heat and light, which is emitted as visible light when the temperature of the filament increases.
The radiation emitted by a body that absorbed it first is known as re-emitted or secondary radiation. This occurs when absorbed energy is re-radiated by the object in a different form such as heat or light.
Scattering is associated with weak light rays that travel in different directions. This phenomenon occurs when light interacts with particles or medium that causes it to deviate from a straight path, resulting in the light being diffused in various directions.
Scattering. The location inside the Earth where an earthquake begins is called the focus.
Scattering. The location inside the Earth where an earthquake begins is called the focus.
Light emitted by any light source - say, by a lamp, or by the Sun - travels in all directions.
light emitted from excited atoms occurs only at specific wavelengths
Yes
You are probably thinking of chemiluminescence. This occurs during a chemical reaction when light is emitted. Search luminol.
Light emitted from a flame occurs when electrons in atoms or molecules absorb energy and move to an excited state. When these electrons return to their lower energy levels, they release energy in the form of light. This process is known as the emission of photons, which produces the characteristic colors of the flame. The specific wavelengths of light emitted depend on the elements present in the flame and their unique energy level transitions.
scattering
Yes, elements can scatter light. This scattering occurs when light interacts with the electrons in the atoms of the element, causing the light to change direction or be absorbed and re-emitted in different directions. This is the basis for various optical phenomena, such as the color of certain elements and the scattering of sunlight in the Earth's atmosphere.
Nuclear Fusion
The energy given off by burning a matchstick is mainly in the form of heat and light. The heat is a result of the exothermic combustion reaction that occurs when the matchstick is ignited, and the light is emitted as a by-product of the combustion process.
Radiation in a light bulb occurs when electrons move through the filament wire, releasing energy in the form of electromagnetic radiation (light) as they collide with atoms in the wire. This process generates heat and light, which is emitted as visible light when the temperature of the filament increases.