Πώς να υπολογίσετε το Radioactive Decay
Τι είναι το Radioactive Decay;
Radioactive decay follows exponential decay law. The decay rate depends on the decay constant and the number of remaining nuclei.
Τύπος
The calculator applies N(t) = N₀ × e^(-λt) or A(t) = A₀ × e^(-λt)
- N
- N₀ × e^(-λt) or A(t) = A₀ × e^(-λt) — N₀ × e^(-λt) or A(t) = A₀ × e^(-λt)
- A
- A₀ × e^(-λt) — A₀ × e^(-λt)
Οδηγός βήμα προς βήμα
- 1Enter initial activity or mass, decay constant (or half-life), and elapsed time
- 2The calculator applies N(t) = N₀ × e^(-λt) or A(t) = A₀ × e^(-λt)
- 3Results show remaining nuclei or activity
Worked Examples
Εισαγωγή
N₀ = 1 mol (6.022 × 10²³), λ = 0.693/5730 yr⁻¹ (¹⁴C), t = 5730 yr
Αποτέλεσμα
N ≈ 0.5 mol (50%)
One half-life
Common Mistakes to Avoid
- ✕Using decay constant instead of half-life without converting
- ✕Assuming linear decay instead of exponential
Frequently Asked Questions
Can radioactivity be accelerated or stopped?
No, decay rate is determined by nuclear physics and cannot be changed by temperature, pressure, or chemistry.
What's the difference between activity and amount?
Amount is number of nuclei (decreasing exponentially); activity is decay rate (also decreasing, at same rate).
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