Convert 32/5 to a mixed number.
Answers
The mixed form of the factor 32/5 will be 6²/₅.
To convert the fraction 32/5 to a mixed number, we need to find the whole number part and the fractional part.
Divide the numerator (32) by the denominator (5) to find the whole number part. In this case, 32 divided by 5 equals 6 with a remainder of 2.
The quotient, 6, represents the whole number part of the mixed number.
The remainder, 2, represents the numerator of the fractional part.
The denominator remains the same.
Putting it all together, the mixed number representation of 32/5 is 6 and 2/5.
So, 32/5 is equal to 6 and 2/5.
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Answer:
6 2/5
Step-by-step explanation:
6×5= 30 + 2= 32
I hope this helps in any way.
Related Questions
A repair person is scheduled to be at your apartment between 9:00am to 12:00pm but you have to leave at 11:30 to help out a friend. If the repair person is equally likely to be at your apartment any time during the appointment time, what is the probability that you will be there?
Solve the following equation for B. b Over 3 equals M
FACTOR COMPLETELY: y^3 - 5y^2 - 17y + 21HINT: one of the factors is (y-1)
Simplify.28+3(5d-3)
Answers
Answer:
see below
Step-by-step explanation:
3/5 + 7/10
We did not get a common denominator
He added the numerators and got 10/10 = 1
He should get a common denominator
3/5 * 2/2 + 7/10
6/10 + 7/10
13/10
10/10 + 3/10
1 3/10 miles
Answer:
His mistake was adding the numerators together without converting the fractions to have a common denominator
Step-by-step explanation:
3/5 + 7/10
convert fractions to have common denominator
6/10 + 7/10 = 13/10
convert improper fraction to mixed number
1 3/10
He ran a total of 1.3 miles
Answers
Answer: a = b*r/n
Step-by-step explanation: Hope this helps :^)
Answers
Answers
Answer:
below
Step-by-step explanation:
First, you must find the total he has: $10
Then, you must find how much he need: $13
Then, you take the smaller number to take away from the greater number: 13-10
Finally, you subtract those two numbers to find the amount the Juan needs: $3
Answer:
he can do things that well give him money
Step-by-step explanation:
Answers
Answer:
Step-by-step explanation:
Hello!
The objective is to test if there is a difference between the fuel economy of mid-size domestic cars and mid-size import cars.
For this there are two samples taken:
X₁: Fuel economy of a domestic car.
Sample 1
n₁= 17 domestic cars
X[bar]₁= 34.904 MPG
S₁= 4.6729 MPG
X₂: Fuel economy of an import car.
Sample 2
n₂= 15 import cars
X[bar]₂= 28.563 MPG
S₂= 8.4988 MPG
To estimate the difference between the average economic fuel of domestic cars and import cars, assuming both variables have a normal distribution and both population variances are unknown but equal, the statistic to use is a t-test for two independent samples with pooled sample variance:
(X[bar]₁-X[bar]₂)±
Sa= 6.73
(34.904-28.563)±
6.341±1.697*2.38
[2.30;10.38]
With a confidence level of 90%, you'd expect that the difference between the average economic fuel of domestic cars and import cars will be contained in the interval [2.30;10.38].
I hope it helps!
Answers
Answer:
G
Step-by-step explanation:
Try to understand what this equation is saying and what plugging in different values would represent.
At x=0, b(0)=850; which means the initial balance is $850. So H is incorrect.
At x=1, b(1)=871.25; which means that after 1 year, the initial balance will have increase to $871.25. So J is incorrect.
Since the initial vacation of 850 is being multiplied by a factor which is greater than one, the balance will be increased each year. So F is incorrect.
Finally, if we look at the factor by which we are multiplying, do a simple Algebraic step, and convert it into percentages we get:
1.025 = (1 + 0.025) = 100% + 2.5%
Essentially this is showing us that the balance will increase by 2.5% on however much is in the account each year.
So G is your answer.