Suppose a crew member at an unloading dock can unload 3 trucks per hour and have already unloaded 17 trucks. Which equation can be used to medel the number of trucks the crew unloads after h hours?A. 3h+17
B. 3h=17
C. 17h-3
D. 17h+3
Answers
Answer:
A. 3h+17
Step-by-step explanation:
Given,
The initial number of unloaded trucks = 17,
Also, 3 trucks per hour can be uploaded,
So, the additional number of uploaded truck after h hours = 3h,
Hence, the total number of uploaded trucks after h hours = Initial uploaded trucks + additional trucks
= 17 + 3h
Which is the required equation,
Option A is correct.
Answer:
A
Step-by-step explanation:
3 trucks per hour and you have already unloaded 17
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75,000 grams= _____kilograms
Answers
40=5h
8=h
There you go
Answers
Answer:
65 bottles in 1 hour.
Step-by-step explanation:
A factory processed 1,560 ounces of olive oil per hour.
The oil is packaged in to 24-ounce bottles.
We will divide total number of ounces processed by one packaged bottle.
The number of bottles filled in 1 hour =
= 65 bottles
The factory will filled 65 bottles in 1 hour.
1. is A
2. is B
3. is C
4. is D
Answers
The required whisker plot of the data is given by A . Option A is correct.
What is a box plot?
A straightforward method of expressing statistical data on a plot in which a rectangle is drawn to represent the second and third quartiles, with a vertical line inside to indicate the median value. Horizontal lines on both sides of the rectangle show the lower and upper quartiles.
Here,
To create a box and whisker plot, we first need to find the minimum and maximum values, the median, and the first and third quartiles of the data set.
The minimum value is 13, and the maximum value is 27. To find the median, we first need to order the data set from smallest to largest:
13, 13, 20, 21, 21, 22, 24, 27
The median is the middle value, which in this case is the average of the two middle values: (21 + 21) / 2 = 21.
To find the first and third quartiles, we divide the data set into two halves at the median and find the median of each half. The first quartile (Q1) is the median of the lower half, and the third quartile (Q3) is the median of the upper half.
Lower half: 13, 13, 20, 21
Upper half: 21, 22, 24, 27
Q1 = (13 + 20) / 2 = 16.5
Q3 = (22 + 24) / 2 = 23
Thus, from the above calculation, the required whisker plot of the data is given by A . Option A is correct.
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Minimum: 13
Maximum: 27
First quartile: 14.75
Third quartile: 23.50
Interquartile Range: 8.75
Answers
Answer:
All but 6+w
Step-by-step explanation:
Every polynomial has a degree and that one doesn't.
Answers
Answers
5 goes into both 90 and 365 evenly: (90/5)=18 & (365/5)=73
There are no other numbers that go into both 18 and 73 evenly.
Final answer:
90 clear days out of 365 days a year in Houston, Texas represents the fraction 18/73 of a year.
Explanation:
The city of Houston, Texas typically has 90 clear days out of approximately 365 days in 1 year. To answer this mathematics problem, we need to determine the fraction that represents Houston's clear days in a year. The fraction would be the number of clear days divided by the total number of days in a year, that is, 90/365. This fractions needs to be simplified to its simplest form. The greatest common divisor of 90 and 365 is 5. So divide both the numerator (90) and the denominator (365) by 5. This gives us 18/73. Therefore, the clear days in Houston represent 18/73 of a year.
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