The absolute age of that rock can be determined from the half-life of radioactive elements present in rocks such as Lokium
Further explanation
The core reaction is a reaction that causes changes in the core structure.
In the core reaction, the number of atomic numbers and mass numbers of the reactants is the same as the atomic number and mass number of the product
Radioactivity is the process of unstable isotopes towards stable isotopes by decay, by emitting certain particles, among others
• alpha α particles ₂He⁴
• beta β ₋₁e⁰ particles
• gamma particles γ
• positron particles ₁e⁰
General formulas used in decay:
[tex]\large{\boxed{Nt=No.(\frac{1}{2}) ^{\frac{T}{t1/2} } }}[/tex]
Information:
T = duration of decay
t 1/2 = elemental half-life
N₀ = the number of initial radioactive atoms
Nt = the number of radioactive atoms left after decaying during T time
Geologists can determine the age of rocks from the content of radioactive elements in it
The procedure that can be used is to calculate the half-life using the imaginary element of the Lokium and the decaying atom called DOL (daughter of Lokium)
The procedure :
- This Lokium is expressed in the form of cubes such as dice, or homemade cubes
- Use as many as + - 100 cubes, enter them in the box
- Mark this cube with a specific mark using a marker, or if the dice mark on certain numbers such as the number 1
- Shake the box and take the dice/cube that has been marked and facing up .This drawn dice represents DOL
- Then do the shaking again until you get the amount of half of the initial dice that is the remaining 50 cubes. This is called half-time
The time needed to reach this half-life is calculated from the number of shaking times, which is determined at 1000 years per shaking
This procedure can be illustrated graphically so that we know the graph that occurs whether in exponential form or not
The shaking procedure can be carried out until the cube runs out to obtain data points on the graph.
On the x-axis = the remaining cube. On the y-axis = the value of trial / shaking
From this experiment, we can find out, at what number of shaking, the half-life of Lokium was achieved
Learn more
exponential decay
https://brainly.com/question/6565665
nuclear decay reaction
https://brainly.com/question/4207569
Plutonium − 239
https://brainly.com/question/10125168
Keywords: the half-life, Lokium, DOL, decay reaction
