Question about Computers & Internet

There are six possible five-number combinations of six numbers, one with each of the six numbers omitted.

Posted on Aug 06, 2014

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Posted on Jan 02, 2017

If the order doesn't matter there is one combination of five numbers, namely 13457.

If the order matters then there are 120 permutations of the five digits.

If the order matters then there are 120 permutations of the five digits.

Jan 27, 2015 | Home Security

Do you want combinations or permutations? They're different things. A combination of n items taken m at a time, sometimes written "nCm", selects m items from a group of n without regard to order. A permutation of n items taken m at a time, sometimes written "nPm", selects m items from a group of m with regard to order.

Given six numbers, there are six combinations of one number, 15 combinations of two numbers, 20 combinations of three numbers, 15 combinations of four numbers, six combinations of five numbers, and one combination of six numbers.

Given six numbers, there are six permutations of one number, 30 permutations of two numbers, 120 permutations of three numbers, 360 permutations of four numbers, 720 permutations of five numbers, and 720 permutations of six numbers.

Given six numbers, there are six combinations of one number, 15 combinations of two numbers, 20 combinations of three numbers, 15 combinations of four numbers, six combinations of five numbers, and one combination of six numbers.

Given six numbers, there are six permutations of one number, 30 permutations of two numbers, 120 permutations of three numbers, 360 permutations of four numbers, 720 permutations of five numbers, and 720 permutations of six numbers.

Oct 22, 2014 | Office Equipment & Supplies

There is only one combination using all five digits, namely 1, 2, 3, 4, 7 in some order.

If the order matters then there are 120 different permutations. I won't list them all here, but they start with 1, 2, 3, 4, 7 and go through 7, 4, 3, 2, 1.

If the order matters then there are 120 different permutations. I won't list them all here, but they start with 1, 2, 3, 4, 7 and go through 7, 4, 3, 2, 1.

Aug 21, 2014 | Computers & Internet

If the numbers repeat twice, there are five combinations (111, 333, 555, 777, and 999). If the numbers only repeat once, there are sixty combinations (113, 131, 311, 115, 151, 511, etc).

Mar 18, 2014 | Computers & Internet

If you want all six characters then there's only one combination, namely all six of them. If the order matters then there are 720 possible permutations of the six characters.

Oct 06, 2013 | Tablets & eReaders

That depends on how many of those six numbers you take.

If you only take one number, there are six combinations: {1}, {2}, {3}, {4}, {5}, and {6}.

If you take two numbers, there are fifteen combinations: {1,2}, {1,3}, {1,4}, {1,5}, {1,6}, {2,3}, {2,4}, {2,5}, {2,6}, {3,4}, {3,5}, {3,6}, {4,5}, {4,6}, and {5,6}.

If you take three numbers, there are twenty combinations.

If you take four numbers, there are fifteen combinations.

If you take five numbers, there are six combinations.

If you take all six numbers, there is only one combination: {1,2,3,4,5,6}.

In general, if you take 'm' objects out of a set of 'n' objects, the number of combinations is given by n!/[(m!)(n-m)!] where '!' is the factorial operator.

If you only take one number, there are six combinations: {1}, {2}, {3}, {4}, {5}, and {6}.

If you take two numbers, there are fifteen combinations: {1,2}, {1,3}, {1,4}, {1,5}, {1,6}, {2,3}, {2,4}, {2,5}, {2,6}, {3,4}, {3,5}, {3,6}, {4,5}, {4,6}, and {5,6}.

If you take three numbers, there are twenty combinations.

If you take four numbers, there are fifteen combinations.

If you take five numbers, there are six combinations.

If you take all six numbers, there is only one combination: {1,2,3,4,5,6}.

In general, if you take 'm' objects out of a set of 'n' objects, the number of combinations is given by n!/[(m!)(n-m)!] where '!' is the factorial operator.

Apr 30, 2013 | Mathsoft Computers & Internet

That depends on how many of those six numbers you take.

If you only take one number, there are six combinations.

If you take two numbers, there are fifteen combinations.

If you take three numbers, there are twenty combinations.

If you take four numbers, there are fifteen combinations.

If you take five numbers, there are six combinations.

If you take all six numbers, there is only one combination.

In general, if you take 'm' objects out of a set of 'n' objects, the number of combinations is given by n!/[(m!)(n-m)!] where '!' is the factorial operator.

If you only take one number, there are six combinations.

If you take two numbers, there are fifteen combinations.

If you take three numbers, there are twenty combinations.

If you take four numbers, there are fifteen combinations.

If you take five numbers, there are six combinations.

If you take all six numbers, there is only one combination.

In general, if you take 'm' objects out of a set of 'n' objects, the number of combinations is given by n!/[(m!)(n-m)!] where '!' is the factorial operator.

Apr 30, 2013 | Home Security

say the code is 3456 you hit the number 1 key three times the number 2 key four times the 3 key five times and the number 4 key six tmes. then to store it you hold down the number six.

Dec 28, 2009 | Electric Renault R26 Radio Control Car

The HP Procurve 2650 switch does not have buttons. What hardware has the problem?

Jun 30, 2009 | HP ProCurve Switch 2650

Are all five numbers coming from the pool for 35 numbers?

if yes the combinations would be

35 x 34 x 33 x 32 x 31

38,955,840

if not from one pool but five different pools for 35 then it would be 35 to the 5th power

or

35 x 35 x 35 x 35 x 35

52,521,875

if yes the combinations would be

35 x 34 x 33 x 32 x 31

38,955,840

if not from one pool but five different pools for 35 then it would be 35 to the 5th power

or

35 x 35 x 35 x 35 x 35

52,521,875

Oct 02, 2008 | Computers & Internet

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