In AAS and AES spectra, there are a lot of lines in the spectrum. What creates...

1) Why might the mercury spectrum have more lines than the hydrogen spectrum? 2) Why might...

1) Why might the mercury spectrum have more lines than the hydrogen spectrum? 2) Why might the mercury spectrum have more lines than the hydrogen spectrum? 3) For these emission spectra, why are some lines more intense than other lines?

Ketones and esters have very similar spectra because both have C=O bands in their spectra. What...

Ketones and esters have very similar spectra because both have C=O bands in their spectra. What band should you look for on the spectrum of an ester that a spectrum of ketone won't have?

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 spectrum of a star has dark absorption lines of helium superimposed on a continuous spectrum....

The spectrum of a star has dark absorption lines of helium superimposed on a continuous spectrum. What can you conclude from this? a The star is made up of helium b There is a great deal of helium in the earth’s atmosphere c The dark lines have absorbed helium d The light from the star has passed through a cloud of helium Estimate the wavelength of the red line in oxygen. Which of the following regions is the widest? a....

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

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

7.7 What are two main functions of an ion gun in an AES and XPS system?...

7.7 What are two main functions of an ion gun in an AES and XPS system? 7.10 How can you tell Auger peaks from photoelectron peaks in an XPS spectrum? 8.10 Why does ToF SIMS use a pulsed, not continuous, primary ion beam?

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....

The absorption spectrum is the characteristic pattern of dark lines or bands that occurs when electromagnetic...

The absorption spectrum is the characteristic pattern of dark lines or bands that occurs when electromagnetic radiation is passed through a medium into a spectroscope. Suppose radiation with a continuous spectrum is shined on a gas of hydrogen gas whose atoms are all in the ground state, which spectral series will be missing in the resulting absorption spectrum?

Three discrete spectral lines occur at angles of 10.0°, 13.6°, and 15.0°, respectively, in the first-order...

Three discrete spectral lines occur at angles of 10.0°, 13.6°, and 15.0°, respectively, in the first-order spectrum of a diffraction grating spectrometer. (a) If the grating has 3750 slits/cm, what are the wavelengths of the light? λ1 =  nm (10.0°) λ2 =  nm (13.6°) λ3 =  nm (15.0°) (b) At what angles are these lines found in the second-order spectra? θ =  ° (λ1) θ =  ° (λ2) θ =  ° (λ3)

Three discrete spectral lines occur at angles of 11.0°, 13.9°, and 14.9° in the first-order spectrum...

Three discrete spectral lines occur at angles of 11.0°, 13.9°, and 14.9° in the first-order spectrum of a grating spectrometer. (Assume that the light is incident normally on the gratings.) (a) If the grating has 3 670 slits/cm, what are the wavelengths of the light? (Enter your answers from smallest to largest.) nm   nm   nm (b) At what angles are these lines found in the second-order spectrum? (Enter your answers from smallest to largest.) ° ° °