Project 1: Difference between revisions
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(Created page with "== Part I for both PHYS460 and PHYS660 == Consider a radiactive decay problem involving two types of nuclei, ''A'' and ''B'', with populations <math> N_A(t) </math> and <mat...") |
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<math> \frac{dN_A}{dt} = - \frac{N_A}{\tau_A} </math>, | <math> \frac{dN_A}{dt} = - \frac{N_A}{\tau_A} </math>, | ||
<math> \frac{dN_B}{dt} = \frac{N_A}{\tau_A} - \frac{N_B}{\tau_B} </math>, | <math> \frac{dN_B}{dt} = \frac{N_A}{\tau_A} - \frac{N_B}{\tau_B} </math>, | ||
where <math> \tau_A </math> and <math> \tau_B </math> are the decay time constants for each type of nucleus. Use the Euler method to solve these coupled equations numerically for <math> N_A(t) </math> and <math> N_B(t) </math> as a function of time. | where <math> \tau_A </math> and <math> \tau_B </math> are the decay time constants for each type of nucleus. Use the Euler method to solve these coupled equations numerically for <math> N_A(t) </math> and <math> N_B(t) </math> as a function of time. | ||
== Part II for PHYS 660 only == | == Part II for PHYS 660 only == | ||
Revision as of 17:42, 10 February 2012
Part I for both PHYS460 and PHYS660
Consider a radiactive decay problem involving two types of nuclei, A and B, with populations and . Suppose that type A nuclei decay to form type B nuclei, which then also decay, according to differential equations:
,
,
where and are the decay time constants for each type of nucleus. Use the Euler method to solve these coupled equations numerically for and as a function of time.
