0
How do you make 27 from 1 2 4 and 6 using each number only once and each arithmetical operation only once?
4! + 1 x 6 ÷ 2 is one way I can figure without using an operation more than once. 4! = 4 x 3 x 2 x 1 = 24. Then by order of operations, perform 1 x 6 ÷ 2 = 3, which is added to 24 to get 27.
Another way is: (6/2)^(4-1), which is 3 raised to the 3 power (3 x 3 x 3 = 27).
If the limitation on operators is not present, then you can do it by 4 x 6 + 1 + 2 : 4 x 6 = 24, then add 1 and 2 to get 27.
What else can I help you with?
How do you use conversion factors to find each specified amount?
There's not enough information here to answer this accurately. I imagine you would look at the specified amounts, find some conversion factors that apply, and apply them using some sort of arithmetical operation. But I can't say for sure, since you haven't included the specified amounts.
With only using the numbers one four six and four each once using any operation add subtract divide or times. How would i get the number 25?
4*6+1
What is the smallest whole number that you can find using 2 3 5 7 11 and each arithmetic operation exactly once?
The smallest that I can get, using only the basic operations of arithmetic, is -2310
Which countries does star 67 works to hide tel number?
Each country has their own systems in operation
What is the smallest roman number using each number once?
The smallest value Roman numeral using each symbol only once would be MCDXLIV = 1444
What is the operation which undo each other?
inverse operation
What is the largest 6 digit number using only even numbers using each number only once?
998,000
How does the place of each digit help the value of the number?
the place of each digit help the value of the number by using your multuplication
What operations that undo each other?
Operation, and inverse operation
What is the definition of assignment problem in operation research?
A special case of the transportation problem in a linear program, in which the number of sources (assignees) equals the number of designations (assignments) and each supply and each demand equals 1
What do you call and operation that undo each other?
It is called a INVERSE OPERATION.
Row headings identify each row using a different?
Number
