52 x 6 if it is a six sided die.
As rolling the die does not affect the card drawn, the two events are independent. Assuming a standard 6-sided die and a standard deck without jokers, then there are 6 × 52 = 312 possible outcomes.
The odds against drawing a 10 out of a 52 card deck are 12:1.
The probability is 0. One card cannot be a club and a spade!
0 < L < x where x is the maximum possible length. Although there is no information in the question which would limit the length of the deck, the universe contains only a finite number of atoms and so that would result in an upper bound for the length of the deck.
There are 52 cards in a deck and 12 face cards (J,Q,and K) so probability is 12/52 = 3/13
The are 52 possible outcomes if you pick a card from a deck of 52.
There are 52 outcomes.
The set of outcomes is the 52 cards in the deck.
The odds can simply be calculated by dividing the total number of desired outcomes by the total number of possible outcomes. After you pick the first card (no matter what suit), the odds of picking a second card of the same suit are 12/51 -- there are 12 cards remaining of the suit that was initially picked (desired outcomes) and 51 cards in the remaining deck (possible outcomes). As a percent, this equals 23.529%
The probability of drawing a king or a red card from a standard deck of 52 cards is (4 + 26 - 1) in 52, or 29 in 52, or about 0.5577. There are four kings and 26 red cards, of which one is a king. Simply count the number of desired outcomes (29) and divide by the number of possible outcomes (52).
As rolling the die does not affect the card drawn, the two events are independent. Assuming a standard 6-sided die and a standard deck without jokers, then there are 6 × 52 = 312 possible outcomes.
The number of possible 4-card hands out of a 52 card deck is 270,725.
eleventeen
There are 1716 of them.
There are fifty-two cards in a deck. Twelve are picture cards (king, queen, jack for each of four suits.) So your chances of getting a picture card are twelve out of fiftytwo, which you can reduce down to three out of thirteen.
To determine probability you do Number of Times the Desired Event will occur -------------------------------------------------------- Number of Possible Outcomes In this case, there are 52 cards in a deck (assuming no jokers). 1/4th of those cards are spades (This gives us 13 spades) so Number of Times the Desired Event will occur = 13 Number of Possible outcomes = 52 You will draw a spade 13 out of 52 times. (13/52) Or reduced - You will draw a spade 1 out of 4 times (1/4)
There are 2,598,960 5-card hands. This is combinatorials, which is used in probability but is not probability itself.