Answer:
<h2>From least to greatest: C, B and A</h2>
Step-by-step explanation:
To order each Kicker correctly, we have to find the success rate of each one, which is obtained by dividing and then multiplying by 100 to obtained the percentage:
<h3>Success rate of A:</h3>
<h3>Success rate of B:</h3>
<h3>Success rate of C:</h3>
So, comparing all three, from least to greatest we have:
C with 79%, then B with 83%, and A with 86%.
Answer:
12
Step-by-step explanation:
So, all you have to do is multiply 6 and 2.
In 
If you add + it equals 1 whole.
If 2 equals 1 whole. You multiply 6 by 2.
Hope this helped!
<span>Equation at the end of step 1 :</span><span><span> ((16•(x5))+(8•(y2)))-7x5
</span><span> Step 2 :</span></span><span>Equation at the end of step 2 :</span><span><span> ((16 • (x5)) + 23y2) - 7x5
</span><span> Step 3 :</span></span><span>Equation at the end of step 3 :</span><span> (24x5 + 23y2) - 7x5
</span><span> Step 4 :</span>Final result :<span><span> 9x5 + 8y2
</span>cv
</span>
Answer:
h = b(√3)/2
Step-by-step explanation:
The ratio of base to height of an equilateral triangle is ...
... b/h = 2/√3
Multiplying both sides of the equation by (√3)h/2, we get
.. h = b(√3)/2 . . . . . . your equation with h as the subject
AAS congruence theorem.
We know that <H is congruent to <F and <GJH is congruent to <JGF.
We also know that JG is congruent to JG, which gives us a side and two angles, so AAS would prove them congruent.
