Answer:
The correct order of fractions in descending order will be:
Step-by-step explanation:
Given fraction:
To arrange them in descending order.
Solution:
In order to arrange the fractions in descending order, we will have to find the least common denominators.
To find the least common denominator, we will find the least common multiple of the denominators 3,5, and 30.
Since 30 is a common multiple of all 3 numbers, so it will be the least common denominator.
So, we multiply the numerators and denominators with same numbers in order to make the denominators = 30.
So, we have:
⇒ 
⇒ 
Now, we compare the numerators and arrange them accordingly.
So, the correct order of fractions in descending order will be:
Answer:
The cubed-root of v (/v)
Step-by-step explanation:
Like your work on the second question illustrated, the cubed root of v (which is 216) is your expression for the edge length of the box in inches.
Hope this helps!
Using the ASA congruence theorem, the missing statement in her proof is: A. ΔACD ≅ ΔECB.
<h3>What is the ASA Congruence Theorem?</h3>
Two triangles are congruent by the ASA congruence theorem if they have two pairs of corresponding congruent angles and a pair of included congruent sides.
In the proof given in the diagram, using the ASA congruence theorem, Rowena has been able to prove that ΔACD and ΔECB have two pairs of corresponding congruent angles and a pair of included congruent sides.
Therefore, the missing statement in her proof is: A. ΔACD ≅ ΔECB.
Learn more about the ASA congruence theorem on:
brainly.com/question/2102943
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The equation of the given line above is y=3x-1. The slope of the line is 3/1 (3x) and the y-intercept which is where the line crosses the y-axis is (0,-1) When you plug these parameters into the equation you will get the equation y=3x-1
Answer:
24
Step-by-step explanation:
12 times 2 is 24
