The probability for most of the same colours is most likely green. One of each can be one of each, but there is a small chance you will get more red and yellow than green.
It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.
it is 13/52 because there are always 4 different card colours in each deck so divide 4 in 52 and your answer is 13hope you understand my equation* * * * *Hope you don't because it is incorrect! The probability of any event is a number in the range [0, 1] so the answer cannot be 13!A normal deck two coulours, not 4: red and black. It therefore contains 26 red cards and so the probability is 26/52 = 1/2.
The probability is B*G/(B+G+R)^2where B = number of Blue marbles G = number of Green marbles and R = number of marbles of other colours.
The answer is 7! - 6! = 4320.
Use different colours and tessalation. Works for me.
Assuming the spinner has only a finite number of colours, the probability is 0. If there are n colours then on the (n+1)th spin the spinner cannot land on a different colour.
Leaves colors are according to the quantities of chlorophyll (which is green) the plant contains.
Because that is the way your eyes and brain perceive it to be. The brain does not have a mechanism to filter the different signals from the different colours that are produced in your eye, so it sees certain mixed colours as white.
It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.It refers to experiments where more than one tokens are randomly selected from a set of tokens (of different colours). If the the token is replaced after each selection, the probabilities remain constant whereas if the token is not replaced - as the question suggests - the probabilities change, depending on the outcome of the selection.
We see different colours because other colours are being absorbed.
Monochromatic light contains light of only one colour (or frequency), while white light contains light of different colours and frequencies.
If you buy seeds from the seed stand in Monstro City, they'll grow randomly into different colours. You have to keep planting the seed you need until you get the correct colour.
The probability depends on the availability of marbles of those colours to the person making up the bag.
It is 3/13. The fact that the card is black makes no difference since the probability is the same for both colours.
it is 13/52 because there are always 4 different card colours in each deck so divide 4 in 52 and your answer is 13hope you understand my equation* * * * *Hope you don't because it is incorrect! The probability of any event is a number in the range [0, 1] so the answer cannot be 13!A normal deck two coulours, not 4: red and black. It therefore contains 26 red cards and so the probability is 26/52 = 1/2.
white light
There is a 60% chance you will choose a black, 20% chance of a green, and 20% chance of a blue.