Option B. is true.
- A isn't true because 0.9919 is lesser than 0.999.
- C is false because 2.6953 is lesser than 2.75. They are not equal.
- D is also false because 4.9395 is not greater than 5.0.
<u>Answer</u><u>:</u>
<u>B</u><u>.</u><u> </u><u>1</u><u>.</u><u>4</u><u>3</u><u>5</u><u>9</u><u> </u><u><</u><u> </u><u>1</u><u>.</u><u>4</u><u>4</u><u>6</u>
Hope you could get an idea from here.
Doubt clarification - use comment section.
(original - new)/original * 100%
(48-15)/48 * 100%
33/48 *100%
68.75 % decrease
Canceling units is also called unit analysis.
This is also called dimensional analysis.
What is a unit of analysis in statistics?
- The unit of analysis is the entity that you're analyzing. It's called this because it's your analysis (what you want to examine) that determines what this unit is, rather than the data itself.
- Because it is the analysis you do in your study that determines what the unit is.
- For instance, if you are comparing the children in two classrooms on achievement test scores, the unit is the individual child because you have a score for each child.
For example -
1 ft = 12 in
3 ft = 
3 ft = ( 3 * 12 ) in ⇒ 36 in
Learn more about unit analysis
brainly.com/question/15579410
#SPJ4
Answer:
yeah here I's the answer
Step-by-step explanation:
Weights of adult males are normally distributed with a mean of u = 85.5 kg and a standard deviation of o= 17.7 kg. If a sample yields x = 80 kg, how many standard deviations is this away from the mean? What is the probability that another sample of size is n=1000 has mean < 80kg? (Hint: Use the Central Limit Theorem.)
d(4) = 64
substitute n = 2, 3, 4 into d(n) = d(n - 1) + 17
d(2) = d(1) + 17 = 13 + 17 = 30
d(3) = d(2) + 17 = 30 + 17 = 47
d(4) = d(3) + 17 = 47 + 17 = 64
