There Are Red And Blue Marbles In A Jar

Ratio of red to blue marbles 3 5 a the quantity in column a is greater.

There are red and blue marbles in a jar.

You need to place all the marbles into the jars such that when you blindly pick one marble out of one jar you maximize the chances that it will be red. A random sample of n 3 marbles is selected from the jar. When picking you ll first randomly pick a jar and then randomly pick a marble out of that jar. If the first two marbles are both blue what is the probability that the third marble will be red.

There are 73 marbles in the jar. There are 19 more marbles other than the green marbles. According to the experiment are all outcomes equally likely. You have two jars 50 red marbles and 50 blue marbles.

The same number of red and blue marbles were added to the jar. Let the number of blue marbles be x. There are 3 marbles in a jar a red a blue and a yellow one. Indeed we have these equations where r is the number of red marbles g is the number of green marbles and b is the number of blue marbles g b 6 1 all but 6 are red marbles r b 8 2 all but 8 are green marbles r g 4 3 all but 4 are blue marbles.

The ratio of red marbles to blue marbles in a jar is 3 5. You can arrange the marbles however you like but each marble must be in a jar. This means that the number of red marbles is 2 x since the red marbles are twice as more as the blue marbles. A marble is drawn and replaced 10 times.

A bucket contains 60 marbles some red some blue and sone white the percentage of drawing a red is 35 and the.