For the following exercises, consider this scenario: For each year t , the population of a forest of trees is represented by the function A ( t ) = 115 ( 1.025 ) t . In a neighboring forest, the population of the same type of tree is represented by the function B ( t ) = 82 ( 1.029 ) t . (Round answers to the nearest whole number.) Assuming the population growth models continue to represent the growth of the forests, which forest will have a greater number of trees after 2 0 years? By how many?
For the following exercises, consider this scenario: For each year t , the population of a forest of trees is represented by the function A ( t ) = 115 ( 1.025 ) t . In a neighboring forest, the population of the same type of tree is represented by the function B ( t ) = 82 ( 1.029 ) t . (Round answers to the nearest whole number.) Assuming the population growth models continue to represent the growth of the forests, which forest will have a greater number of trees after 2 0 years? By how many?
For the following exercises, consider this scenario: For each year t , the population of a forest of trees is represented by the function
A
(
t
)
=
115
(
1.025
)
t
.
In a neighboring forest, the population of the same type of tree is represented by the function
B
(
t
)
=
82
(
1.029
)
t
.
(Round answers to the nearest whole number.)
Assuming the population growth models continue to represent the growth of the forests, which forest will have a greater number of trees after
2
0
years? By how many?
Expression, rule, or law that gives the relationship between an independent variable and dependent variable. Some important types of functions are injective function, surjective function, polynomial function, and inverse function.
Consider the table of values below.
x
y
2
64
3
48
4
36
5
27
Fill in the right side of the equation y= with an expression that makes each ordered pari (x,y) in the table a solution to the equation.
solving for x
Consider the table of values below.
x
y
2
63
3
70
4
77
5
84
Fill in the right side of the equation y= with an expression that makes each ordered pari (x,y) in the table a solution to the equation.
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