Answer:
(A) There should have been 5 outcomes of HT
(B) The experimental probability is greater than the theoretical probability of HT.
Step-by-step explanation:
Given
-- Sample Space
--- Sample Size
Solving (a); theoretical outcome of HT in 20 tosses
First, calculate the theoretical probability of HT
Multiply this by the number of tosses
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Solving (b); experimental probability of HT
Here, we make use of the table
---- Experimental Probability
In (a), the theoretical probability is:
---- Experimental Probability
By comparison;
Answer:
16 glasses
Step-by-step explanation:
If 1 glass = 1/4 liter of juice
then 16 glasses = 4 liters of juice
because 4 divided by 1/4 = 16
Answer:
A triangle and a rectangle
Step-by-step explanation:
Answer:
In this equation R would equal 88 because it satisfies the equation.
Step-by-step explanation:
You must solve for R by isolating the variable(which is R). To move the 1/8, multiply both sides by 8. You would do this because 8 is the reciprocal of 1/8. With R on it's own, to keep both sides equal multiply 11*8. That equals 88, which satisfies the equation, which is why 88 is the solution.
Hope this helps :)
What is he interquartile range for 27,4,54,78,27,48,79,64,5,6,41,71
Ugo [173]
Answer:
If it stays in that order its between 48,79 if this helps.
Step-by-step explanation:
