Answer: I know right cuz I’m stuck right now!!!!
Step-by-step explanation:
<h2>
<u>Q</u><u>U</u><u>E</u><u>S</u><u>T</u><u>I</u><u>O</u><u>N</u><u>:</u></h2>
A demographer predicts that the population, P, of a town t years from now can be modeled by the function <u>P(t) = 6t^4 - 5t^3 + 200t + 12000</u>. What will the population of the town be two (2) years from now?
<h2>
<u>S</u><u>O</u><u>L</u><u>U</u><u>T</u><u>I</u><u>O</u><u>N</u><u>:</u></h2>
To calculate the population of the town be two (2) years from now, replace t into 2:
<h2>
<u>A</u><u>N</u><u>S</u><u>W</u><u>E</u><u>R</u><u>:</u></h2>
- The population of the town be two (2) years from now is <u>12, 456</u>.
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Vertical angles are equal, so the angle above 2 is also 88+x. Then, because the 2 sides of the 52° triangle are congruent, the angles beneath them are too. So you are left with the equation of that triangle being...
88 + x + 88 + x + 52 = 180
combine like terms
228 + 2x = 180
subtract 228 from both sides
2x = -48
divide both sides by 2
x = -24
Hope this helps :)
If we look at the series, one third of the current term gives the numerical value of the next term.
If we need to express it algebraically, we can write the following equation.
Therefore, our common multiplier can be found as follows. Because this sequence is a geometric sequence.
In geometric sequences, any term can be written in terms of the first term. Below is an example.
Since we know the numerical values of the first term and the common factor of the series, we can easily find the seventh term.
Answer:
1/6 or 2/12
Step-by-step explanation: