2 years ago

PLEASE HELP I GIVE THANKS

Mathematics

1 answer:

Elden [556K]2 years ago

3 0

The answer of first one is A, because this is positive.

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I need help to solve this and also Hearn will the bacteria be over 100,000

lapo4ka [179]

Hello! Let's look at the two parts of this question.

Complete the table:

In this case, you just substitute the value of "hour" into the equation, for the value of t. For example:

P(0) = 120 $(2)^{0}$

P(0) = 120 (1)

P(0) = 120

Therefore, the number of bacteria for hour 0 is 120.

You can do this for the next ones. Hour 1 = 240, hour 2 = 480, and so on. (In this case, you can keep multiplying by 2)

Estimate when there will be more than 100,000 bacteria:

Set the final value of P(t) = 100,000, then solve.

100,000 = 120 (2 $)^{t}$

833.33 = (2 $)^{t}$

t = $log_{2}833.33$

t = 9.702744108

So your answer would be around 9.7 years, or, around 10 years.

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2 years ago

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Dima020 [189]

The answer would be
p≥1

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VLD [36.1K]

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2 years ago

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Jlenok [28]

Well, there are two solutions.

Add both sides by 15.75 then from here, you can use quadratic formula.

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Rafael counted a total of 40 white cars and yellow cars there were 9 times as many white cars as yellow how many white cars did

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Answer:

Uhhhh si he counted 40 cars so just do 40 times 9 which is 360

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