Answer:
so 1000987 in 3 years or 1000987:3 or i like to put it as 1000987:3

we notice that 6 is 2 times of 3 so we just multiply 1000987:3 by 2 and get 2001974:6

2001974 in 6 years

we notice that 6 is 2 times of 3 so we just multiply 1000987:3 by 2 and get 2001974:6

2001974 in 6 years

An element with mass 1000 grams decays by 14.8% per minute. How much of the element is remaining after 11 minutes, to the nearest 10th of a gram?

Jubal wrote the four equations below. He examined them, without solving them, to determine which equation has no solution. 7 x + 1 = 7 x+ 1. 3 x + 2 = 3 x minus 2. 4 x + 1 = 3 x + 8. negative 2 x minus 1 = negative 2 x minus 1. Which of Jubal’s equations has no solution?

Doctors use the term maximum heart rate (MHR) when referring to the quantity found by starting with 220 beats per minute and subtracting 1 beat per minute for each year of a person’s age. Doctors recommend exercising 3 or 4 times each week for at least 20 minutes with your heart rate increased from its resting heart rate (RHR) to its training heart rate (THR), where THR = RHR + .65(MHR – RHR) Which of the following is closest to the THR of a 43-year-old person whose RHR is 54 beats per minute? A. 197 B. 169 C. 162 D. 134 E. 80

Solve for X . They are alternate angles

Write y=x^2-18x+83 in vertex form. Then identify the vertex.

Jubal wrote the four equations below. He examined them, without solving them, to determine which equation has no solution. 7 x + 1 = 7 x+ 1. 3 x + 2 = 3 x minus 2. 4 x + 1 = 3 x + 8. negative 2 x minus 1 = negative 2 x minus 1. Which of Jubal’s equations has no solution?

Doctors use the term maximum heart rate (MHR) when referring to the quantity found by starting with 220 beats per minute and subtracting 1 beat per minute for each year of a person’s age. Doctors recommend exercising 3 or 4 times each week for at least 20 minutes with your heart rate increased from its resting heart rate (RHR) to its training heart rate (THR), where THR = RHR + .65(MHR – RHR) Which of the following is closest to the THR of a 43-year-old person whose RHR is 54 beats per minute? A. 197 B. 169 C. 162 D. 134 E. 80

Solve for X . They are alternate angles

Write y=x^2-18x+83 in vertex form. Then identify the vertex.

**Answer:**

29

**Step-by-step explanation:**

**You divide it by 3 to get 29**

**Answer:**

the coefficient of the variable in the given expression is, -3

**Step-by-step explanation:**

**Coefficient** states that a number which is used to multiply a variable.

For example:

4y

here, y is the variable and 4 is the coefficient.

As per the statement:

**Given the expression:**

Here, x is the variable

By definition of coefficient, we have;

⇒-3 is the coefficient

**Therefore, the coefficient of the variable in the given expression is, -3**

the coefficient of the variable in the expression 4-3x-7+6 is 3

15

17

18

14

15, 18 and 14 are composite except 17 which is prime

your answer is B=17

hope I helped you

You just have to try them all:

Y=x+3 ≈ 6=3+3 ≈ 6=6 √

Y=x+3 ≈ 8=4+3 ≈ 8=7 X

So the first function doesn't work

Y=2x ≈ 6=2(3) ≈ 6=6 √

Y=2x ≈ 8=2(4) ≈ 8=8 √

Second function works

Y=x+4 ≈ 6=3+4 ≈ 6=7 X

Third function does not work

Y=12-x ≈ 6=12-3 ≈ 6=9 X

Fourth function doesn't work

So your answer is Y=2X :)

Y=x+3 ≈ 6=3+3 ≈ 6=6 √

Y=x+3 ≈ 8=4+3 ≈ 8=7 X

So the first function doesn't work

Y=2x ≈ 6=2(3) ≈ 6=6 √

Y=2x ≈ 8=2(4) ≈ 8=8 √

Second function works

Y=x+4 ≈ 6=3+4 ≈ 6=7 X

Third function does not work

Y=12-x ≈ 6=12-3 ≈ 6=9 X

Fourth function doesn't work

So your answer is Y=2X :)

Answer: Option A: 500.

Step-by-step explanation:

If 95% of the students are present in a school, then the number of absent students is 5% of the total number of students. We are given that the number of absent students is 25, so we can set up an equation:

0.05x = 25

Solving for x, we get:

x = 25 / 0.05 = 500

Therefore, the total number of students in the school is 500.

Therefore, the correct answer is Option A: 500.

Please let me know if there’s anything else I can help you with!

When the **charge **for 3 **hours **is $94 on **Monday **and $130 for 5- **hour **service on **Tuesday **would **charge **for 2-**hour **call service is $76.

**Electricians charge **a **fixed **rate + an **hourly **rate. The **charges **are a total of $94 for a 3-**hour **service call on **Monday **and $130 for a 5-**hour **service call on **Tuesday**.

A **linear equation **is a one-**degree equation**. The **equation **includes the variable of the **highest **power one. The **standard **form of an **equation **is Ax + B = 0, where x is the **variable**, A is the **coefficient **and B is a **constant**.

To solve the **linear equation **we need to find the unknown **variable **which satisfied the given **linear equation**.

**Electricians charge **a **fixed **rate + an **hourly **rate

If he **charges**, $94 for a 3-**hour **call on **Monday **and $130 for a 5-**hour **call on **Tuesday **then charging for 2 extra **hours **is the difference between the two **amounts**.

130 - 94 = $36

for an **hourly **rate, it will be $18

For the **fixed **traveling **charge**, we will subtract the 3-**hour **rate from a **fixed **rate of $94 - 3 × $18 = $40

So, for x **hour **call the **equation **will be, 40 + 18x

for 2 **hour **service, the **charges **would be 40 + 18 × 2 = $76

Therefore, when the **charge **for 3 **hours **is $94 on **Monday **and $130 for 5- **hour **service on **Tuesday **would **charge **for 2-**hour **call service is $76.

Learn more about **linear equations** here:

First you need to find what the hourly rate is and what the flat rate is. The hourly rate is $18 and the flat rate is $40. Then you add $40+ (18x). Substitute 2 in for x for the hours and get $76.