1answer.
Ask question
Login Signup
Ask question
All categories
  • English
  • Mathematics
  • Social Studies
  • Business
  • History
  • Health
  • Geography
  • Biology
  • Physics
  • Chemistry
  • Computers and Technology
  • Arts
  • World Languages
  • Spanish
  • French
  • German
  • Advanced Placement (AP)
  • SAT
  • Medicine
  • Law
  • Engineering
Morgarella [4.7K]
3 years ago
8

What did the candle say to the match

Mathematics
1 answer:
Grace [21]3 years ago
7 0
You light up my life
You might be interested in
I NEED ANSWERS TO THESE QUESTIONS IT WAS DUE 5 mins ago and i have TILL 8:30 TO GET THEM DONE SOMEONE HELP A GIRL OUT
kondor19780726 [428]

6. A

7. C

8. C

9. B

-FWEW

7 0
2 years ago
X2 + 2y ÷ w + 3z for w = 2, x = 5, y = 8, and z = 3?
melisa1 [442]

Step-by-step explanation:

w = 2

x = 5

y = 8

z = 3

= x² + 2y ÷ w + 3z

= (5)² + 2(8) ÷ (2) + 3(3)

= 25 + 16 ÷ 2 + 9

= 25 + 8 + 9

= 42

5 0
2 years ago
Relate a vertical line test to understanding functions.
SpyIntel [72]

Answer:

B or the third option you put.

Step-by-step explanation:

8 0
3 years ago
What is the volume of the rectangular prims ?
tangare [24]

They are all different sizes.

8 0
3 years ago
What equation best models this data?(use y to represent the population of rabbits and t to represent the year, assuming that 201
liraira [26]

If we see the data closely, a pattern emerges. The pattern is that the ratio of the population of every consecutive year to the present year is 1.6

Let us check it using a couple of examples.

The rabbit population in the year 2010 is 50. The population increases to 80 the next year (2011). Now, \frac{80}{50}=1.6

Likewise, the rabbit population in the year 2011 is 80. The population increases to 128 the next year (2012). Again, \frac{128}{80}=1.6

We can verify the same ratio with all the data provided.

Thus, we know that the population in any given year is 1.6 times the population of the previous year. This is a classic case of a compounding problem. We know that the formula for compounding is as:

F=P\times r^n

Where F is the future value of the rabbit population in any given year

P is the rabbit population in the year "0" (that is the starting year 2010) and that is 50 in this question. (please note that there is just one starting year).

r is the ratio multiple with which the rabbit population increases each consecutive year.

n is the nth year from the start.

Let us take an example for the better understanding of the working of this formula.

Let us take the year 2014. This is the 4th year

So, the rabbit population in 2014 should be:

F_{2014} =50\times(1.6)^4\approx328

This is exactly what we get from the table too.

Thus, F=P\times r^n aptly represents the formula that dictates the rabbit population in the present question.

4 0
3 years ago
Other questions:
  • Your family of four has a 6 GB data limit each month. You use twice as much data as your sister, half as much data as your fathe
    15·1 answer
  • Evaluate each expression for x = 6 and for x = 3. Based on your results, do you know whether the two expressions are equivalent?
    8·1 answer
  • Please help<br> It says (a^9 b^5 c^8)^2
    14·1 answer
  • Help giving out 10 points
    6·2 answers
  • Simplify: (3^5)^2 / 3^-2<br><br><br> A) 3^10<br><br> B) 3^9<br><br> C) 3^12<br><br> D) 3^8
    7·1 answer
  • Construct a difference table to predict the next term of the sequence.
    7·1 answer
  • Solve for n<br> -112 = 7n
    11·2 answers
  • What is the value of x?<br><br> Enter your answer in the box.
    9·2 answers
  • 24. If 2x-7=3, then 3x+1 =<br> 1.4<br> 2.5<br> 3.7<br> 4.12<br> 5. 16
    8·1 answer
  • Chris is trimming trees. He can trim 2/3 of a tree in 30 minutes. What is Chris’s rate for trimming trees in trees per hour?
    15·2 answers
Add answer
Login
Not registered? Fast signup
Signup
Login Signup
Ask question!