A store owner bought a jacket for $20. She sold it in her store for $35. What is the percent of the markup on the jacket?

Answers

Answer 1

Answer: If a store owner bought a jacket for $20 and sold it for $25 the markup would be 40%

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Which number is a factor of 14 but not a multiple of 2

Answers

A factor of 14 is 7, and it isnt a multiple of 2.

7 x 2 = 14

A number that is a factor of 14 but also not a multiple of 2=7

Round 1.448 to the nearest hundreth of a dollar

Answers

The hundredths is the second digit after the decimal point.
So round the third digit after the decimal point.

1.448 rounds up to 1.45

Hope this helps!

1.450 is the anwser to it

At the start of the year, 15 chameleons were introduced into a zoo. The population of chameleons is expected to grow at a rate of 41.42% every year. The function below models the population of chameleons in the zoo, where x represents the number of years since the chameleons were introduced into the zoo. A. The average rate of change in the population between year 4 and year 6 was 41 more than the average rate of change in the population between year 6 and year 8.
B. The average rate of change in the population between year 2 and year 4 was approximately half the average rate of change in the population between year 4 and year 6. C. The average rate of change in the population between year 4 and year 6 was the same as the average rate of change in the population between year 6 and year 8. D. The average rate of change in the population between year 2 and year 4 was approximately double the average rate of change in the population between year 4 and year 6.

Answers

Answer:

option-B

Step-by-step explanation:

We are given

At the start of the year, 15 chameleons were introduced into a zoo

so, $P_0=15$

The population of chameleons is expected to grow at a rate of 41.42% every year

so, r=0.4142

and x represents the number of years since the chameleons were introduced into the zoo

now, we can set equation to find total population

and we get

$P(x)=P_0(1+r)^x$

now, we can plug values

$P(x)=15(1+0.4142)^x$

$P(x)=15(1.4142)^x$

Average rate of change between 2 years and 4 years:

we can use formula

$A_1=(P(4)-P(2))/(4-2)$

now, we can plug values

$A_1=(15(1.4142)^(4)-15(1.4142)^(2))/(4-2)$

$A_1=14.99914$

Average rate of change between 4 years and 6 years:

we can use formula

$A_2=(P(6)-P(4))/(6-4)$

now, we can plug values

$A_2=(15(1.4142)^(6)-15(1.4142)^(4))/(6-4)$

$A_2=29.99770$

Average rate of change between 6 years and 8 years:

we can use formula

$A_3=(P(8)-P(6))/(8-6)$

now, we can plug values

$A_3=(15(1.4142)^(8)-15(1.4142)^(6))/(8-6)$

$A_3=59.99425$

now, we will check each options

option-A:

we can see that

$A_3-A_2=30$

So, this is FALSE

option-B:

$A_1=(1)/(2)A_2$

So, this is TRUE

option-C:

This is FALSE

option-D:

we got

$A_1=(1)/(2)A_2$

so, this is FALSE

Answer:

did u ever find an answer to this question?

Step-by-step explanation:

What is the percentage of error in weight if measured weight is 22 pounds and actual weight is 25 pounds

Answers

The percent error is by 12%

The percent error is calculated by subracting the actual weight from the estimated weight and then dividing it by the actual value and multiplying it by 100% in absolute value(Which means to remove any negative sign)

What is the correct rule for the pattern?8000,400.20.1