The probability of getting two red counters is 27.77%, the probability of getting two blue counters is 20.38%, and the probability of getting one of each color is 51.38%.
Given that Tina has two bags of counters, Bag A and Bag B, and there are 5 red counters and 3 blue counters in bag A, while there are 4 red counters and 5 blue counters in bag B, to determine, if Tina takes at random a counter from each bag, the probability of obtaining each counter, the following calculation must be made:
- Bag A red counter = 5/8 = 0.625
- Bag A blue counter = 1 - 0.625 = 0.375
- Bag B red counter = 4/9 = 0.444
- Bag B blue counter = 1 - 0.444 = 0.555
- Two red = 0.625 x 0.444 = 0.2777
- Two blue = 0.375 x 0.555 = 0.2083
- One red and one blue = 1 - 0.2777 - 0.2083 = 0.5138
Therefore, the probability of getting two red counters is 27.77%, the probability of getting two blue counters is 20.38%, and the probability of getting one of each color is 51.38%.
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Answer:
n= 48
Step-by-step explanation:
first, you would simply both sides of the equation which would give you -1/6n + 15 = 1/6n - 1
second, subtract 1/6 from both sides. This would give you -1/3n +15= -1
then, subtract -1 from both sides, giving you -1/3n =-16
last you would multiply both sides by -1/3 giving you 48.
Answer:
Step-by-step explanation:
Performance Assessment Making a Fruit Bowl Bill has 5 apples and 5 bananas. He can only put 5 pieces of fruit in a bowl. How can Bill make a table to show the different ways he can put fruit in the bowl? 0 2 3 4 5 5. MP.7 Look for Patterns Write the 3. MP.8 Generalize What will be the same in each row of the table? missing numbers in the table. How do you know your answers are coect? . MP.2 Reasoning Will the number of bananas get smaller or larger as you move down the table? How do you know?
Answer:
as X > infinity then y>-infinity