8.3 Nuclear radius

Cards (43)

Rutherford's scattering experiment used alpha particles to investigate the structure of atoms
Observations and implications from Rutherford's scattering experiment
1️⃣ Most α particles passed straight through
2️⃣ Atom is mostly empty space
3️⃣ Some α particles were deflected at small angles
4️⃣ Positive charge is concentrated in a small region
5️⃣ A few α particles were deflected backwards
6️⃣ Nucleus is heavy and positive
Typical values for the nuclear radius range from 1 to 10 femtometres. 
True
The constant $r_{0}$ in the empirical formula is approximately 1.2 fm
Match the parameter with its symbol and value:
Radius Constant ↔️ $r_{0}$ , 1.2 fm
Nuclear Radius ↔️ $r$ , Varies
What is the constant $r_{0}$ in the empirical formula for nuclear radius called? 
Radius constant
The value of $r_{0}$ is approximately 1.2 fm. 
True
What is the nuclear radius related to in terms of the mass number A?
Proportional to $A^{1 / 3}$
Heavier nuclei have larger radii compared to lighter nuclei.
True
Steps in Rutherford's scattering experiment
1️⃣ Alpha particles directed at gold foil
2️⃣ Most particles pass straight through
3️⃣ Some particles deflected at small angles
4️⃣ A few particles deflected backwards
What is the empirical formula for nuclear radius?
r = r_{0} A^{1 / 3}</latex>
What is the unit of the radius constant $r_{0}$ ? 
fm
What does the mass number $A$ represent in the context of nuclear radius calculations? 
Total protons and neutrons
The radius constant, $r_{0}$ , is approximately 1.2 fm
What is the empirical formula for calculating the nuclear radius of an atom?
r = r_{0} A^{1 / 3}</latex>
The nuclear radius, $r$ , is measured in femtometres
The nuclear radius increases with the mass number of the nucleus. 
True
The nuclear radius of carbon-12 is approximately 2.4 fm
How does the nuclear radius change as the mass number increases?
Increases as the cube root
What is the nuclear radius of hydrogen-1, which has a mass number of $A =$ $1$ ? 
1.2 fm
Heavier nuclei have larger radii compared to lighter nuclei.
Arrange the following isotopes in order of increasing nuclear radius:
1️⃣ Hydrogen-1
2️⃣ Carbon-12
3️⃣ Uranium-238
What is the nuclear radius of an atom?
The size of the nucleus
What was the expected outcome of Rutherford's experiment if Thomson's plum pudding model was correct?
Alpha particles undeflected
What is the main difference between the Rutherford model and the plum pudding model?
Concentrated nucleus
What is the empirical formula for calculating nuclear radius?
r = r_{0} A^{1 / 3}</latex>
How does the nuclear radius change as the mass number increases?
Increases
The radius constant $r_{0}$ is fixed at 1.2 fm and does not change. 
True
The radius constant $r_{0}$ determines the typical size of a nucleus
Match the parameter with its value:
Radius Constant ↔️ 1.2 fm
Nuclear Radius ↔️ Varies
Typical values for the nuclear radius range from 1 to 10 fm
What type of particles were used in Rutherford's scattering experiment?
Alpha particles
Match the observation in Rutherford's experiment with its implication:
Most α particles passed straight through ↔️ Atom is mostly empty space
Some α particles were deflected at small angles ↔️ Positive charge is concentrated
A few α particles were deflected backwards ↔️ Nucleus is heavy and positive
The radius constant $r_{0}$ is approximately 1.2 fm. 
True
To calculate the nuclear radius, plug the mass number into the formula r = 1.2 fm \times A^{1 / 3}</latex>
What does the mass number of a nucleus represent?
Total number of protons and neutrons
Steps to calculate the nuclear radius of a specific element
1️⃣ Identify the mass number $A$
2️⃣ Plug the mass number into the formula: $r =$ $1.2 fm \times A^{1 / 3}$
3️⃣ Calculate the result to find the nuclear radius $r$
What is the nuclear radius of carbon-12, which has a mass number of $A =$ $12$ ? 
2.4 fm
How is the nuclear radius of carbon-12 calculated using the empirical formula?
r = 1.2 fm \times 12^{1 / 3}</latex>
What is the approximate value of the radius constant, $r_{0}$ , in femtometres? 
1.2 fm