Discrete data is defined as data having finite values while continuous data is defined as data having continuous values having fractions and decimals.
Step-by-step explanation:
We need to explain the differences in discrete vs. continuous data and how these are graphed differently on a histogram?
Discrete data is defined as data having finite values and there is nothing between the values. For example the number of people in a house.
Continuous data is defined as data having continuous values having fractions and decimals. For example Market price of product can be continuous data
- <u>Graph Discrete Data in histogram</u>
Bar graphs are used to represent discrete data. A bar graph is a histogram, where bars are separated from each other because the values are discrete
- <u>Graph Continuous Data in histogram</u>
Histograms are used to represent continuous data. A histogram have bars connected to each other because the values are continuous.
The graph is shown in figure attached.
Keywords: discrete vs. continuous data
Learn more about discrete vs. continuous data at:
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First we will distribute
4(5x - 6) - 4(2x + 1)
distribute the 4 to the numbers inside the parenthesis so that is the 5 and -6
and the second four to the numbers in the parenthesis so that is 2 and 1
20x - 24 - 8x -4
Then we combine like terms (the coeffiecients of x and the other two numbers)
12x -28
The answer is the third one
Hope this helps :)
The probability of choosing. a green pen is 0.25
<h3>What is probability?</h3>
Probability is the likelihood or chance that an event will occur. Mathematically;
Probability = Expected/Total outcome
If a bag has 3 blue pens, 6 red pens, and 3 green pens, then;
Total pen = 3+6+3
Total pen = 12
If a green pen is chosen, then
Pr(choosing a green pen) = 3/12
Pr(choosing a green pen) = 0.25
Hence the probability of choosing. a green pen is 0.25
Learn more on probability here: brainly.com/question/25870256
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Answer:
Step-by-step explanation:
b) 1- scale factor from the first map to the second map:
= 1.33
2- landmark on the first map is a triangle with side lengths of 3 mm, 4 mm, and 5 mm.
Side lengths of the landmark on the second map
Divide the length by scale factor:
side lengths of 3 mm: = 2.25 mm
side lengths of 4 mm: = 3.007 mm
side lengths of 5 mm: = 3.75 mm