Evita lives 0.85 mile from her school . write this distance as a fraction in simplest form
Answers
Answer:
Step-by-step explanation:
When we write a terminating decimal as a fraction,
Then we follow the below steps,
Step 1 : Write the number with denominator 1,
Step 2 : multiply numerator and denominator by an exponent of 10 ( like 10, 100, 100 etc ) to eliminate the decimal,
Step 3 : simplify the fraction by dividing both numerator and denominator by the HCF of numerator and denominator,
Here, the given number,
0.85
( HCF (85, 100) = 5 )
Related Questions
What is the radius of the circle whose equation is x^2 + y^2 = 8
In circle F, the measure of ∠AFE is equal to 120° and the measure of arc BD is equal to 20°.What is the measure of ∠C?100°40°60°50°
Please can you answer question b
I don’t know how to answer this
Answers
2 and 1/4 = 2.25
So now we subtract
5 - 2.25 = 2.75
She is 2.75 miles away from her starting point
:P
Answer:
uhh look itu pon ogogle derrrrr jk xdxd
Step-by-step explanation:
Answers
Answer:
2 > 8
5 > 20
1.5 > 6
2 2/3 > 10.667
4 7/8 > 19.5
Step-by-step explanation:
(Use cross multiplication or algebra to solve)
Answer:
Step-by-step explanation:
Make q clear
688÷7=
Answers
also the numbers .285714 all keep on repeating forever and there's a mathematical sign that you put over decimals like that (that just keep on repeating themselves) but i forgot what its called i know this is long but i hope it helped you:)
B) 357 miles on 21/2 gallons
C) 216 miles on 27/2 gallons
D) 209 miles on 11/2 gallons
E) 115 miles on 5/2 gallons
Answers
304 miles on 19/2 gallons of gasoline.
304 miles ÷ 19/2 gallons = 304 miles * 2/19 gallon = 608 /19 = 32 miles per gallon.
Compute unit rate of each choices.
a) 187 miles ÷ 17/2 gallons = 187 * 2/17 = 374/17 = 22 miles per gallon
b) 357 miles ÷ 21/2 gallons = 357 * 2/21 = 714/21 = 34 miles per gallon
c) 216 miles ÷ 27/2 gallons = 216 * 2/27 = 432/27 = 16 miles per gallon
d) 209 miles ÷ 11/2 gallons = 209 * 2/11 = 418/11 = 38 miles per gallon
e) 115 miles ÷ 5/2 gallons = 115 * 2/5 = 230/5 = 46 miles per gallon
The car with the greater unit rate of miles per gallon than the recommended car is CHOICE E. 46 MILES PER GALLON
Answers
Answer: The correct option is (B) square root of 36.
Step-by-step explanation: We are given to select the correct number that is irrational.
RATIONAL NUMBER: The digits after the decimal are either terminating or repeating.
IRRATIONAL NUMBER: The digits after the decimal are non-repeating and non-terminating.
Option (A) is 4.121221222 . . .
Here, the digits after the decimal are non-repeating and non-terminating. So, the given number is irrational.
Option (B) is square root of 36, which is equal to 6.
6 = 6.00.
Here, the digits after the decimal are terminating. So, the given number is rational.
Option (C) is square root of 21.
We know √21 = 4.5825756 . . .
Here, the digits after the decimal are non-repeating and non-terminating. So, the given number is irrational.
Option (D) is 1.192744502 . . .
Here, the digits after the decimal are non-repeating and non-terminating. So, the given number is irrational.
Thus, the rational number is square root of 36.
Option (b) is correct.
Answers
Answer: 0.9996
Step-by-step explanation:
Given : The body temperatures of adults are normally distributed with a mean of 98.6° F and a standard deviation of 0.60° F.
Sample size : n=25
Let x be the random variable that represents the body temperatures of adults.
z-score :
For x= 99° F
Now, the probability that their mean body temperature is less than 99° F will be :-
Hence, the probability that their mean body temperature is less than 99° F = 0.9996
Final answer:
To find the probability that the mean body temperature of 25 randomly selected adults is less than 99°F, we can use the Central Limit Theorem and calculate the Z-score. The mean body temperature of adults is 98.6°F with a standard deviation of 0.60°F. The sample size is 25.
Explanation:
To find the probability that the mean body temperature of 25 randomly selected adults is less than 99°F, we can use the Central Limit Theorem. According to the Central Limit Theorem, the sampling distribution of the sample mean follows a normal distribution with a mean equal to the population mean and a standard deviation equal to the population standard deviation divided by the square root of the sample size.
In this case, the mean body temperature of adults is 98.6°F with a standard deviation of 0.60°F. The sample size is 25. So, the mean of the sampling distribution would still be 98.6°F, but the standard deviation would be 0.60°F divided by the square root of 25, which is 0.12°F.
Now, we can use the Z-score formula to find the probability that the mean body temperature is less than 99°F. The Z-score is calculated by subtracting the population mean from the desired value (99) and dividing it by the standard deviation of the sampling distribution (0.12). We can then use a Z-table or calculator to find the probability associated with the Z-score.
Learn more about Probability here:
#SPJ3