Why are only individual lines and colors seen in the bright-line emission spectra of atoms?

Why does the presence of discrete lines in the emission spectra of atoms support the idea...

Why does the presence of discrete lines in the emission spectra of atoms support the idea of quantum theory? a. The lines are proportional to wavelength b. Quantum theory supports discrete energy differences c. Emission spectra are directly related to the nuclear charge d. Emission spectra are directly related to the nuclear size

The line emission spectra for different gases vary. Why is this and what can it be...

The line emission spectra for different gases vary. Why is this and what can it be used for ... "check all that apply" the excited atoms of that gas emit all wavelenghts of light producing a unique spectrum Actually they are all the same the excited atoms of that gas emit only certain wavelengths of light producing a unique spectrum the excited atoms of that gas emit only one wavelength of light producing only one line associated with each gas....

11. In spectroscopy elements show a pattern of bright (emission) lines that are specific to that...

11. In spectroscopy elements show a pattern of bright (emission) lines that are specific to that element. For example, the lines observed when hydrogen is excited and viewed in a spectroscope are 6563 Å, 4861 Å,4340 Å, and 4102 Å. How exactly are these spectral lines produced, and what do these lines represent?

Planetary nebulae are characterized by an emission spectrum consisting of Balmer (hydrogen) emission lines and a...

Planetary nebulae are characterized by an emission spectrum consisting of Balmer (hydrogen) emission lines and a pair of strong emission lines at 4959˚A and 5007˚A that were quite mysterious when first seen. Describe the process that is responsible for the production of these lines. Where does the energy that is radiated in these lines come from? Why were these lines so mysterious when first observed?

Why do atomic emission lines have such narrow bandwidths relative to molecular emission lines?

Why do atomic emission lines have such narrow bandwidths relative to molecular emission lines?

In week 6 we learned what the line emission and absorption spectra are. These are very...

In week 6 we learned what the line emission and absorption spectra are. These are very useful in astronomy. Do some research about how astronomers use different types of spectra to learn more about our universe and share your findings with your group.

A chemist identifies compounds by identifying bright lines in their spectra. She does so by heating...

A chemist identifies compounds by identifying bright lines in their spectra. She does so by heating the compounds until they glow, sending the light through a diffraction grating, and measuring the positions of first-order spectral lines on a detector 15.0 cm behind the grating. Unfortunately, she has lost the card that gives the specifications of the grating. Fortunately, she has a known compound that she can use to calibrate the grating. She heats the known compound, which emits light at...

Why are atomic emission lines not actually 'lines' in practice?

Why are atomic emission lines not actually 'lines' in practice?

Neils Bohr’s model of the hydrogen atom explained the unique set of spectral emission or absorbtion...

Neils Bohr’s model of the hydrogen atom explained the unique set of spectral emission or absorbtion lines seen for hydrogen or other atoms. Pick the statment that best summarizes the model. 1. The electrons all formed one single continuous ring around the nucleus. When light was shone at the atom, this ring expanded. Becuase the electrons were further apart and higher in energy, light was absorbed as this happened. The color of light absorbed was related to the number of...

Explain at the atomic/molecular level why each of the following are generated line spectra band spectra...

Explain at the atomic/molecular level why each of the following are generated line spectra band spectra continuum spectra