. What is the probability that the amount of liquid hand soap consumed in a month per secondary school is above 110 liters? Find P(z > 1). . What is the probability that the amount of liquid hand soap consumed in a month per secondary school is below 70 liters? Find P(z < - 3). . What is the probability that the amount of liquid hand soap consumed in a month per secondary school is between 90 – 120 liters? Find P(-1 3) and multiply the answer to 6,091.

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All over the Philippines, there were 6,091 Secondary Schools who participated in the
WinS Program of the Department of Education. If the average amount of liquid hand
soap consumed per Secondary School in a month is 100 liters and the standard
deviation is 10 liters, answer the questions below. Show the step - by – step
computations for each question.
a. What is the probability that the amount of liquid hand soap consumed in a month
per secondary school is above 110 liters? Find P(z > 1).
b. What is the probability that the amount of liquid hand soap consumed in a month
per secondary school is below 70 liters? Find P(z < - 3).
c. What is the probability that the amount of liquid hand soap consumed in a month
per secondary school is between 90 – 120 liters? Find P(- 1 <z< 2).
d. How many secondary schools consume more than 130 L of liquid hand soap in a
month? Find P(z> 3) and multiply the answer to 6,091.
Transcribed Image Text:All over the Philippines, there were 6,091 Secondary Schools who participated in the WinS Program of the Department of Education. If the average amount of liquid hand soap consumed per Secondary School in a month is 100 liters and the standard deviation is 10 liters, answer the questions below. Show the step - by – step computations for each question. a. What is the probability that the amount of liquid hand soap consumed in a month per secondary school is above 110 liters? Find P(z > 1). b. What is the probability that the amount of liquid hand soap consumed in a month per secondary school is below 70 liters? Find P(z < - 3). c. What is the probability that the amount of liquid hand soap consumed in a month per secondary school is between 90 – 120 liters? Find P(- 1 <z< 2). d. How many secondary schools consume more than 130 L of liquid hand soap in a month? Find P(z> 3) and multiply the answer to 6,091.
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