Answer:
essentially lesser than the average person
Step-by-step explanation:
because you are you really good at it for you and
Answer:
In the next 31 years
Step-by-step explanation:
In this question, we are tasked with calculating the number of years it will take for a school’s population to reach a certain amount of it is increasing at a certain rate.
We can use a mathematical exponential approach to solve this.
Let’s say;
P = I( 1 + r)^t
where P is the projected population at 926
I is the initial population at 502
r is the percentage change or rate at 2% which is same as 2/100 = 0.02
and t is time
Plugging these values, we have
926 = 502(1 + 0.02)^t
Divide through by 502
1.845 = 1.02^t
take the logarithm of both sides
log 1.845 = tlog 1.02
t = log 1.845/log 1.02
t = 30.9 = 31 years
Answer:
x > 8
Step-by-step explanation:
Given
17 < 9 + x ( subtract 9 from both sides )
8 < x , hence
x > 8
16, 21, 26, 31, 36
just add five to each previous number to make it easier
Hey!
ANSWER:
6 over 12 {not simplified}
1 over 2 {simplified}
HOW TO SOLVE:
Okay, first let's make a short list of what we know based on the information provided by the problem.
Total Number of Ducks – 12
Number of Ducks With Green Wings – 6
Number of Ducks With Blue Wings – 6
Now using the information we have gathered, let's create some fractions to determine how many blue winged ducks there are out of twelve, and how many green winged ducks there are out of twelve.
Blue Winged Ducks of Total Number of Ducks:
6 over 12
Green Winged Ducks of Total Number of Ducks:
6 over 12
Now that we have our factions made up, we know know that the fraction of number of green winged ducks to total number of ducks is 6 over 12, or 1 over 2 if you'd like that fraction simplified.
Hope this helps.
— Lindsey Frazier ♥️
