We select 1 shirt out of 6 shirts in (6 choose 1) ways or 6 ways. Then, we select 1 out of 3 pairs of shorts in (3 choose 1) or 3 ways. Therefore, the possible combinations of a shirt and a pair of shorts is 6 * 3 = 18 possible combinations.
I honestly have about ..... 53 shirts (including short and long sleeves) 2 winter coats 5 hoodies 1 fitted jacket 4 scarves 15 pairs of shoes 6 pairs of jeans 2 sweatpants 2 skirts 3 dresses 10 leggings 3 shorts 2 swimsuits I would recommend 10 shirts,2 jeans,1 dress,2 scarves,1 winter coat and hoodie , 5 shorts and 1 swimsuit
There are (10 x 9)/2 = 45 different possible pairs of 2 teachers. For each of these . . .There are (30 x 29)/2 = 435 different possible pairs of students.The total number of different committees that can be formed is (45 x 435) = 19,575 .
The probability that they are the same colour - which is not the same as them matching - is 1/4.
If two people pick a number from 1 to 80, then there are 79 possible adjacent pairs that these numbers could go in. For each of these pairs, there are two options (one with person a picking the lower number and one with person b picking the lower number). Thus there are 158 possible pairs. The chance that person 1 will pick any given number is 1/80. The chance that person two will pick any given number is 1/80. Thus the probability that they have picked adjacent number is (1/80)2x158 = 0.0246875
Assuming the 36 numbers are all different, there are 36*35/2 = 630 pairs.
8x5x6 = 240
24 is the answer
12
6
If dots sells t-shirts and shorts only, and sold 250 shirts in April, they sold 350 pairs of shorts. Simply subtract 250 from 600 to get your answer.
11*3*3 = 99 combinations.
Assuming an outfit consists of one top and one pair of shorts, there are 12 combinations.
How many different outfits are possible from six shirts, four pairs of pants, and five pairs of socks?
Assuming the shirts and pants are all different and that an "outfit" consists of one shirt and one pair of pants and that Jimmy is using these shirts and pants to make his outfits, there are 42 possible combinations.
ONE
16
Answer: 192 days. There are 48 different combinations of ties and shirts (8 different ties for each of the 6 pairs of pants), and then four different shirts for each of these combinations. In numerical form: 8 x 6 x 4 = 192