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Transcript
South Pasadena • Chemistry
Name
Period
Date
8 · Nuclear Chemistry
RADIOACTIVITY VIDEO NOTES
Episode 1 – The Discovery of Radioactivity
1.
Nuclear radiation has been part of the human experience since ________________________.
2.
In the mid-19th century, the scientist __________ ______________, experimented with a glass tube in which
the air was excited by electricity.
3.
Cathode rays are deflected by both _____________ fields and _______________ fields.
4.
Cathode rays were found to be _____________-charged particles.
5.
Wilhelm Roentgen discovered __________.
6.
Henri ____________ discovered nuclear radiation accidentally while studying x-rays.
7.
The radiation was coming from the chemical, potassium _______________ sulfate. The important element
was ______________.
8.
This radiation was called _________________ rays in honor of its discoverer.
9.
In the electroscope experiment, Becquerel rays caused the electroscope to discharge quickly because the air
became a good _________________.
10. Polonium and radium were discovered by Marie and Pierre _______________.
11. Marie coined the term “____________________”.
Episode 2 – Properties of Becquerel Rays
1.
On what date did Henri Becquerel discover Becquerel rays? _________________________
2.
Pierre and Marie Curie invented a device to detect radiation because the radioactive material caused the air to
_____________ electricity… thereby completing the circuit in the machine.
3.
Radioactivity interacts with atoms in the air to form positive ions and free _______________. This makes
the air conduct electricity.
4.
Ernest Rutherford did an experiment using pieces of aluminum foil. The first few sheets absorbed the
_________ radiation. The later sheets stopped the ________ radiation.
5.
Paul Villar later discovered _________ radiation.
6.
In a magnetic field, the alpha particle is bent __________ (a lot, a little, not at all).
In a magnetic field, the beta particle is bent __________ (a lot, a little, not at all).
In a magnetic field, the gamma particle is bent __________ (a lot, a little, not at all).
7.
Alpha radiation has a _________ charge while beta radiation has a ___________ charge.
8.
Beta particles are identical to _______________.
9.
Alpha particles are identical to the nucleus of the ____________ atom. (2 protons & 2 neutrons)
10. Wilson invented the __________ _____________.
(We will construct these in class.)
11. Radiation in Wilson’s devices appear as trails of ______________.
Episode 3 – Natural Transmutation
1.
The most easily stopped radiation is __________. The most penetrating radiation is __________.
________ radiation is somewhere in between.
2.
During transmutation, an element changes into _______________. This is because it changes its number of
protons.
3.
Scientists knew that the nucleus consisted of protons and neutrons in _______ [1730 1830 1930]
4.
The number of ________ determines the identity of atoms.
5.
Isotopes have different numbers of ____________.
Hydrogen has three isotopes: hydrogen-1, hydrogen-2, and hydrogen-3. How many neutrons in hydrogen-1?
6.
____
7
3 Li has _____ protons and _____ neutrons in its nucleus.
7.
8.
Nuclear changes do not involve _____________ [protons, neutrons, electrons]
208
An example of alpha () decay is when 212
84 Po
86 Rn  _____ +
9.
What is the isotopic symbol for an alpha particle? _____
An example of beta () decay is when 146 C  _____ +
14
7
N
What is the isotopic symbol for a beta particle? _____
10. Gamma () radiation is released during other decays. An example is this decay. What particle is given off
beside gamma?
34
0
15 P  0  + _____ +
34
16
S
11. True/False: The rate of radioactivity slows down over time. _______
12. In the video, 16 atoms of Radon-212 are shown. The half-life is 24 minutes. Fill in this data chart.
Time (min) # atoms Rn-212
0
24
48
72
96
16
South Pasadena • Chemistry
Name
Period
Date
8 · Nuclear Chemistry
VIDEO NOTES
Episode 1 – The Discovery of Radioactivity
1.
Nuclear radiation has been part of the human experience since the beginning of time.
2.
In the mid-19th century, the scientist Michael Faraday, experimented with a glass tube in which the air was
excited by electricity.
3.
Cathode rays are deflected by both electric fields and magnetic fields.
4.
Cathode rays were found to be negatively-charged particles.
5.
Wilhelm Roentgen discovered x-rays.
6.
Henri Becquerel discovered nuclear radiation accidentally while studying x-rays.
7.
The radiation was coming from the chemical, potassium uranyl sulfate. The important element was
uranium.
8.
This radiation was called Becquerel rays in honor of its discoverer.
9.
In the electroscope experiment, Becquerel rays caused the electroscope to discharge quickly because the air
became a good conductor
10. Polonium and radium were discovered by Marie and Pierre Curie.
11. Marie coined the term “radioactivity”.
Episode 2 – Properties of Becquerel Rays
1.
On what date did Henri Becquerel discover Becquerel rays? March 1, 1896.
2.
Pierre and Marie Curie invented a device to detect radiation because the radioactive material caused the air to
conduct electricity… thereby completing the circuit in the machine.
3.
Radioactivity interacts with atoms in the air to form positive ions and free electrons. This makes the air
conduct electricity.
4.
Ernest Rutherford did an experiment using pieces of aluminum foil. The first few sheets absorbed the alpha
radiation. The later sheets stopped the beta radiation.
5.
Paul Villar later discovered gamma radiation.
6.
In a magnetic field, the alpha particle is bent a little (a lot, a little, not at all).
In a magnetic field, the beta particle is bent a lot (a lot, a little, not at all).
In a magnetic field, the gamma particle is bent not at all (a lot, a little, not at all).
7.
Alpha radiation has a positive charge while beta radiation has a negative charge.
8.
Beta particles are identical to electrons.
9.
Alpha particles are identical to the nucleus of the helium atom. (2 protons & 2 neutrons)
10. Wilson invented the cloud chamber.
(We will construct these in class.)
11. Radiation in Wilson’s devices appear as trails of vapor.
Episode 3 – Natural Transmutation
1.
The most easily stopped radiation is alpha radiation. The most penetrating radiation is gamma radiation.
Beta radiation is somewhere in between.
2.
During transmutation, an element changes into a different element. This is because it changes its number of
protons.
3.
Scientists knew that the nucleus consisted of protons and neutrons in 1930 [1730 1830 1930]
4.
The number of protons determines the identity of atoms.
5.
Isotopes have different numbers of neutrons.
Hydrogen has three isotopes: hydrogen-1, hydrogen-2, and hydrogen-3. How many neutrons in hydrogen-1?
6.
Zero
7
3 Li has three protons and four neutrons in its nucleus.
7.
Nuclear changes do not involve electrons [protons, neutrons, electrons]
8.
An example of alpha () decay is when
212
86
What is the isotopic symbol for an alpha particle?
9.
An example of beta () decay is when
14
6
4
2
Rn 
C 
What is the isotopic symbol for a beta particle?
4
2
He
+
208
84
Po
He
0
-1
e
0
-1
e
+
14
7
N
10. Gamma () radiation is released during other decays. An example is this decay. What particle is given off
beside gamma?
34
15
P
0
0
 +
0
-1
e
+
34
16
S
11. True/False: The rate of radioactivity slows down over time. True
12. In the video, 16 atoms of Radon-212 are shown. The half-life is 24 minutes. Fill in this data chart.
Time (min) # atoms Rn-212
0
16
24
8
48
4
72
2
96
1