A score of 85 would be 1 standard deviation from the mean, 74. Using the 68-95-99.7 rule, we know that 68% of normally distributed data falls within 1 standard deviation of the mean. This means that 100%-68% = 32% of the data is either higher or lower. 32/2 = 16% of the data will be higher than 1 standard deviation from the mean and 16% of the data will be lower than 1 standard deviation from the mean. This means that 16% of the graduating seniors should have a score above 85%.
Answer:
Step-by-step explanation:
we know that
The equation of a exponential growth function is given by
where
P(t) is the population in Madison
t is the number of years
a is the initial value
b is the factor of growth
we have
substitute
The smallest value in a data set is the A. minimum.
Maximum is the largest value.
Median the value that is in the middle. If you have even number of values, you need add 2 middle values and divide them by 2.
Range is the difference between the smallest and the largest values.
Answer:
50% of 100<75% of 104
50% of 100>75% of 60
Step-by-step explanation:
For the inequality to support the statement, we can use 50% of 100 which is 50
Now we need to find "any other number" that is greater. I'll use 104 since it divides evenly. 75% of 104 is 78, 50<78
Now for the second one, we can use 50% of 100 again which is 50.
This time we need to find another number that is less than. I'll use 60. 75% of 60 is 45. 50>45
