The color depends on the lines of the emission spectrum of each different element.
the different gasses cause the light to turn intodifferent dirrections (the reflection goes in different direction because of the different elements) and it is connected with the polarization of the light
The "new" Gothic cathedral was different from previous churches in its architectural style and grandeur. Two ways in which it stood out were its use of pointed arches and ribbed vaults, which allowed for taller and more spacious interiors, and its large stained glass windows that filled the space with colorful light.
White light is a mixture of different frequencies, that are within the range of light our eyes can see.
It is the release of the binding force (strong force) by combining light elements OR splitting heavy elements. (Iron is the "ash"; least binding force per nucleon.)
its a natural fibre ,its not grown its made ....soz if this doesnt help but dats it mate ;)
Some elements produce colorful flames because when they are heated, the electrons in their atoms become excited and jump to higher energy levels. When these electrons return to their original energy levels, they release energy in the form of light, creating the colorful flames.
When elements are heated, their electrons absorb energy and move to higher energy levels. When the electrons return to their original energy levels, they release energy in the form of light. The color of the light emitted depends on the amount of energy released, which is specific to each element. This is why elements burn different colors when they are heated.
A neon sign is an everyday example of colorful light emissions. The gases inside the tubes of a neon sign emit light of different colors when an electrical current passes through them, creating vibrant and eye-catching displays.
Gases in them are heated into high temperatures.
Because the element may have a different substance or metal of some sort that is different and unusual.So it may produce a colorful flame.However, the color of the flame purely relies or is caused by the certain type or kind of element .
The spectrum produced when elements emit different colors when heated is called an emission spectrum. Each element has a unique emission spectrum based on the specific wavelengths of light it emits.
Prisms are optical elements that refract light and separate it into different colors through a process called dispersion. When white light passes through a prism, the different colors that make up the light spectrum are refracted at different angles, creating a colorful rainbow effect.
because when elements are heated there electrons become excited and jump through the elements "steps" and as they become less excited the jump back down steps emitting a unique wavelength and the visible wavelength is the colour we see -------------------------------------- The wavelength of the spectral lines emitted by different elements are specific for each element. Consequently the colour is also different.
The vibrant and dazzling colors in fireworks are created by different chemical compounds that emit light when they are heated. Each compound produces a specific color when it burns, resulting in the colorful display seen in fireworks.
Different elements have different emission spectra, meaning that if the electrons in an atom are excited, they will release that energy in different color of light. The flame color depends on the elements in the compound.
Flame tests show that different elements emit unique colors of light when heated, indicating that each element has its own signature set of energy levels for electrons. This is due to electrons moving to higher energy levels when heated and then falling back down, releasing energy in the form of light.
Different mineral compounds reflect light differently which creates the many different colored rocks you see.