Answer:
103
Step-by-step explanation:
To estimate a value you need to add 1 to the value each time a value after the value is above 5. For example the question above
102.831853072
Let's start from 2 the last number
Less than 5 so you won't be adding one to the number before it
It becomes 102.83185307
The next number is 7 it is greater than 5 so you add 1 to the number before it. Then it becomes
102.8318531. Continue like this till you get to 8 after the decimal point.
8 is above 5 so add to 102 making 103.
The temperature Rose 6•F between 11 a.m. and 1 p.m. .
Pretty sure it’s b
Because it’s by 2 at first then it’s by 125
107 km is 65 miles, 4 liters is 1 gallon so if you went 42 miles then you spent like 3 or 4 dollar s
Answer: The function that modeled the expected population is: F(y) = 200 ( 1.07) ^y
Step-by-step explanation:
It's important to note that according to our problem, y is the input value in years and x is the output value of the deer population.
Let's begin by stating the general form of an exponential equation and explaining the meaning of each variable in the equation:
f(y) = A(B)y
f(y) = output value of x for input value of y
A = initial output value of x
(when input value of y = 0)
B = multiplier (percentage rate)
y = any input value of y
Given : y = 1
A = present population of dear= 200
B= percent increase multiplier = 1 + 7% = 1 + 0.07 = 1.07
F(y) = x = A (B) ^y
F(y) = 200 ( 1.07) ^ 1