What is the primary use of Mass Spectra in chemistry?
Understanding Mass Spectra and Isotopes
Interactive Video
•
Chemistry, Science
•
9th - 12th Grade
•
Hard
Emma Peterson
FREE Resource
This video tutorial explains how mass spectra are used to determine the natural abundance of isotopes and calculate relative atomic masses. It covers the process of mass spectrometry, including vaporization, ionization, and detection of ions. The tutorial also demonstrates how to interpret mass spectrum graphs and perform calculations using examples of elements like cobalt and boron. By the end, viewers should understand isotopes, mass spectrometry, and how to calculate relative atomic masses using mass spectra data.
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10 questions
Show all answers
1.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
To find the natural abundance of isotopes
To determine the color of elements
To measure the temperature of a sample
To calculate the speed of light
2.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
Isotopes of an element have the same number of protons but differ in what aspect?
Number of neutrons
Number of electrons
Chemical properties
Atomic number
3.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
What is the role of the vaporizer in a mass spectrometer?
To detect the sample
To cool down the sample
To ionize the sample
To vaporize the sample
4.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
In a mass spectrometer, what happens to particles with no charge?
They reach the detector
They are deflected by the magnet
They are unaffected by the magnetic field
They are accelerated
5.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
What does the mass-to-charge ratio (m/z) represent in a Mass Spectrum graph?
The color of ions
The mass of ions relative to their charge
The size of ions
The speed of ions
6.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
How is the relative abundance of an isotope represented in a Mass Spectrum graph?
As a ratio on the y-axis
As a percentage on the x-axis
As a ratio on the x-axis
As a percentage on the y-axis
7.
MULTIPLE CHOICE QUESTION
30 sec • 1 pt
What is the relative abundance of Boron-11 in the given example?
23%
100%
75%
50%
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