Chemistry, 20.06.2021 23:30 25linm

C14 Quick Lab Spectral patterns in stars are a little like star
“fingerprints.” By spreading a star’s light into its
spectral colours and “reading” the black spectral
lines that appear, we can identify the individual
chemical elements making up the star. Knowing
what elements are in a particular star gives us
information about how the star formed, whether it is
likely to be surrounded by rocky planets like Earth,
and how it will probably come to an end someday.
In this activity, you will analyze and compare
spectral patterns to determine the chemical make-up
of several stars.
Purpose
To identify the make-up of two mystery stars by
analyzing their spectral patterns
Procedure
1. Looking at Figure 8.14, study the spectral
patterns for the five elements shown.
2. Answer the questions below, recording your
answers in your notebook.
Questions
3. Which three elements are visible iin mystery
star A?
4. Which three elements are visible in mystery
star B?
5. Which element listed in the spectral chart is not
present in either mystery star?
6. Make a sketch of the spectrum that would be
expected in a nebula that contains mainly
hydrogen and lithium.
Analyzing Stars by Their Spectral Patterns

C14 Quick Lab

Spectral patterns in stars are a little like star
“fingerprints.” By spreading a st

Answers: 2

Show answers

Another question on Chemistry

Chemistry, 22.06.2019 01:10

Can someone me with these questions plz.

Answers: 1

Answer

Chemistry, 22.06.2019 04:00

How many molecules are found in 1.32 mol of nacl?

Answers: 1

Answer

Chemistry, 22.06.2019 04:00

The image shows a process that releases nuclear energy which statement best identifies the process shown the process must be fusion because energy is released the process must be fusion because of have your nucleus formed a smaller nuclei the process must be fission because a large nucleus breaks into smaller nuclei the process must be fission because neutrons are formed

Answers: 1

Answer

Chemistry, 22.06.2019 10:00

Americium-241 undergoes fission to produce three neutrons per fission event. if a neutron-absorbing material is mixed in with this sample so that the rate of neutron production drops down to 1.8 neutrons per fission event, which will be effective at achieving a critical mass? check all that apply. remove a deflective shield surrounding the sample. remove absorbent material mixed in with the sample. compress the sample of americium-241.

Answers: 1

Answer

You know the right answer?

C14 Quick Lab Spectral patterns in stars are a little like star
“fingerprints.” By spreading...

Questions