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3 years ago

Find the measure of exterior angle A.

Mathematics

1 answer:

natulia [17]3 years ago

5 0

90+33 =123

180-123= 57
A=57

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Carlos traveled 347 miles to go to his cousins’ house. It took him about 5.5 hours to drive there. Estimate his average speed in

asambeis [7]

347 / 5.5 But you have to estimate so 348 / 6 which is 58

About 58 mph

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4 years ago

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Please help me with question 12 :(

Marta_Voda [28]

Answer:

25x^6 is the right answer

Step-by-step explanation:

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4 years ago

What is the inequality shown in the graph

rodikova [14]

It must be ≤ instead of ≥.

y ≤ - 3·x + 4

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3 years ago

Researchers recorded that a certain bacteria population declined from 200,000 to 900 in 18 hours. At this rate of decay,

salantis [7]

Answer:

9,942 bacteria were there at 10 hours.

Step-by-step explanation:

Equation for population decay:

The equation for population decay, after t hours, is given by:

$P(t) = P(0)(1-r)^t$

In which P(0) is the initial population and r is the decay rate, as a decimal.

Researchers recorded that a certain bacteria population declined from 200,000 to 900 in 18 hours.

This means that $P(0) = 200000$ and that when $t = 18, P(t) = 900$ . So we use this to find r.

$P(t) = P(0)(1-r)^t$

$900 = 200000(1-r)^{18}$

$(1-r)^{18} = \frac{900}{200000}$

$\sqrt[18]{(1-r)^{18}} = \sqrt[18]{\frac{900}{200000}}$

$1 - r = (\frac{900}{200000})^{\frac{1}{18}}$

$1 - r = 0.7407$

$P(t) = P(0)(1-r)^t$

$P(t) = 200000(0.7407)^t$

At this rate of decay, how many bacteria was there at 10 hours?

This is P(10). So

$P(10) = 200000(0.7407)^{10} = 9941.5$

Rounding to the nearest whole number:

9,942 bacteria were there at 10 hours.

5 0

3 years ago

How to expand 3(n+7)

Kobotan [32]

Answer:

3n+21

Step-by-step explanation:

3 × n =3n

3 × (+7) = +21

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3 years ago

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