Programmed population: the next generation. Using a computer or programmable calculator, input this simplified version of the Verhuist equation, y = 3.5 x ( 1 − x ) . Start with x = 0.245 and compute 3.5 x ( 1 − x ) by pressing the function key. Take the result and again press the function key. Repeat 25 times and put the answers in the first column of a table. Now do the whole thing again, but this time start with the slightly different number x = 0.246. Enter the resulting answers in the second column of the table. Are you surprised at the difference between Mindscapes 24 and 25?
Programmed population: the next generation. Using a computer or programmable calculator, input this simplified version of the Verhuist equation, y = 3.5 x ( 1 − x ) . Start with x = 0.245 and compute 3.5 x ( 1 − x ) by pressing the function key. Take the result and again press the function key. Repeat 25 times and put the answers in the first column of a table. Now do the whole thing again, but this time start with the slightly different number x = 0.246. Enter the resulting answers in the second column of the table. Are you surprised at the difference between Mindscapes 24 and 25?
Programmed population: the next generation. Using a computer or programmable calculator, input this simplified version of the Verhuist equation,
y
=
3.5
x
(
1
−
x
)
.
Start with
x
=
0.245
and compute
3.5
x
(
1
−
x
)
by pressing the function key. Take the result and again press the function key. Repeat 25 times and put the answers in the first column of a table. Now do the whole thing again, but this time start with the slightly different number
x
=
0.246.
Enter the resulting answers in the second column of the table. Are you surprised at the difference between Mindscapes 24 and 25?
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, subject and related others by exploring similar questions and additional content below.
Linear Equation | Solving Linear Equations | What is Linear Equation in one variable ?; Author: Najam Academy;https://www.youtube.com/watch?v=tHm3X_Ta_iE;License: Standard YouTube License, CC-BY