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3 years ago

Find the area of a regular pentagon with a side length of 14 and an apothem of 22

1 answer:

5 0

Regular Polygon Area = (# of sides * side length * apothem) / 2
Regular Polygon Area = (5 * 14 * 22) / 2
Pentagon Area = 770

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X + 2x +17=25 I need the answer and need do you know how to check if it's right

Andre45 [30]

Answer:

x=8/3

Step-by-step explanation:

x+2x+17=25

3x+17=25

3x=8

x=8/3

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3 years ago

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What is 898995x10007766767

Rudiy27

Answer: 8.9969323e+15

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2 years ago

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5. How many solutions will the following system of equations have?<br> y = -x +4<br> x² + y² = 16

alekssr [168]

Answer:

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Step-by-step explanation:

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3 years ago

1.How many combinations are possible from the letters HOLIDAY if the letters are taken?

Lesechka [4]

Using the combination formula, it is found that:

1. A. 7 combinations are possible.

B. 21 combinations are possible.

C. 1 combination is possible.

2. There are 245 ways to group them.

<h3>What is the combination formula?</h3>

$C_{n,x}$ is the number of different combinations of x objects from a set of n elements, given by:

$C_{n,x} = \frac{n!}{x!(n-x)!}$

Exercise 1, item a:

One letter from a set of 7, hence:

$C_{7,1} = \frac{7!}{1!6!} = 7$

7 combinations are possible.

Item b:

Two letters from a set of 7, hence:

$C_{7,2} = \frac{7!}{2!5!} = 21$

21 combinations are possible.

Item c:

7 letters from a set of 7, hence:

$C_{7,7} = \frac{7!}{0!7!} = 1$

1 combination is possible.

Question 2:

Three singers are taken from a set of 7, and four dances from a set of 10, hence:

$T = C_{7,3}C_{10,4} = \frac{7!}{3!4!} \times \frac{10!}{4!6!} = 245$

There are 245 ways to group them.

More can be learned about the combination formula at brainly.com/question/25821700

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2 years ago