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Yay ! 

I will be sure to learn summation. It will be nice to be ahead of my class next year .

I think I know how to do it now!

Thank you AnExtremelyLongName!

Previous comment deleted. Guest has done the duty of showing work.

The restriction \(BD<\sqrt{2}\) creates a 45 - 45 - 90 triangle WITHIN the 30 - 60 - 90 triangle.

We easily calculate the area of the 30 - 60 - 90 triangle.

Small leg = 1

Long leg = \(\sqrt{3}\)

Area = \(\frac{\sqrt{3}}{2}\)

We easily calculate the area of the 45 - 45 - 90 triangle.

Leg = 1

Leg = 1

Area = \(\frac{1}{2}\)

Now the probability of BD being less than root 2 is the area of the 45 - 45 - 90 triangle divided by 30 - 60 - 90 triangle.

Now you do it!

Triangle ABC is 30-60-90 

AB = 2        BC = AB/2 = 1     AC =sqrt [(AB)² - (BC)²] = 1.732050808

CD = sqrt[(BD)² - (BC)²] = 1

Probability that BD < sqrt(2) = (CD) / (AC) = 0.577350269  or  57.7350269 %

I've corrected my error with  red "ink"   

Nobody's perfect 

Set Up:

Base = b

Heigh = h

h = b - 4

Area = bh/2

Solve:

Substitute (usually done mentally)

[b * (b + 4)]/2 = 70

b² - 4b = 140

b² - 4b - 140 = 0

(b - 14)(b + 10) = 0

b = (14, -10)

Lengths cannot be negative, so base = 14 and height = now you do it!

Hey I'm in Honors Geometry let us try some algebra II!

Rectangular form is \(a + bi\) according to https://www.youtube.com/watch?v=o0b1dSn_yNY

I learned from this video https://www.youtube.com/watch?v=a6RL2vmmPOU to do the following:

\(\frac{15 + 10i}{1+2i}*\frac{1-2i}{1-2i}=\frac{15+10i-30i+20}{1-2i^2}=\frac{35-20i}{3}\)

I believe you are right. And summation is an amazing tool as well. You should expose yourself to it.

The number of degrees in the measures of the interior angles of a convex pentagon are five consecutive integers. What is the number of degrees in the largest angle?   

The sum of the interior angles of a polygon of n sides is (n – 2)(180) 

Thus the sum of the interior angles of a pentagon is (5 – 2)(180) = 540 

So, what are the five consecutive integers whose total is 540 

Start with (1/5) of 540, then add the two integers on both sides. 

(1/5)(540) = 108 so the five would be 106, 107, 108, 109, 110 

_r

Whoa, no need to get belligerent like that. I was just pointing out that I don't really consider that solution elegant, and that's my opinion. I think that it's possible to do it faster if you know the formula for the sum of a geometric series.

Totally unrelated, but answering questions here is fun and I should do it more.

r = 27.8

Area of sector   A_s = [(r²pi) /360°] * 150° = 1011.645194 in²

Area of triangle   A_t = [ sin(15°) * 27.8] * [ cos(15°) * 27.8 ] = 193.21 in²

Shaded area       A = A_s - A_t = 818.435194 in²   

When you ask a question, could you tell us what is confusing you so we can better help you?