Pangolin14

22 Questions
167 Answers

0

520

1

+421

C&P problem

This is a problem I thought of, is this solution right?

What is the probability of getting two questions correct in a row on a 25 question test with 5 answer choices if you circle ones randomly. i.e. 4 and 5 correct, 24 and 25 read more ..

Pangolin14 Jan 4, 2021

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617

2

+421

Ant on a Cube...

An ant is on the face of a cube with edges measuring five centimeters. The ant starts one centimeter from an edge and two centimeters from another, and wishes to travel to a point on an edge one centimeter from the farthest vertex. What is the shortest read more ..

Pangolin14 Dec 30, 2020

0

1

568

5

+421

Analytic geo, perhaps?

This problem is very intresting, as I first got the correct answer using analytic geo, but wondered if there was another, easier way to do this.

If ΔBCD is isosceles and ㄥADC = 105° and BC = 5√6, find AC in the figure below: read more ..

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Pangolin14 Dec 18, 2020

0

1

566

2

+421

Interesting proof...

Given that x and n are real numbers, prove that $cos(nx) = cos^2(\frac{n}{2} x) - sin^2(\frac{n}{2} x).$

Pangolin14 Dec 13, 2020

0

525

2

+421

Triangle inequality

How many non congruent triangles with positive integer side lengths have perimeter less than 15?

Please note: the sum of any two sides is greater than the third!

Pangolin14 Dec 5, 2020

0

704

1

+421

How do I prove this?

I have the following question:

Let $a,$ $b,$ and $c$ be nonnegative real numbers, and let $A=(0,0),$ $B=(a,b),$ and $C=(c,0)$ be points in the coordinate plane, such that $AB=AC.$ Let $D$ be the midpoint of $\overline{BC},$ let $E$ read more ..

Pangolin14 Nov 26, 2020

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619

5

+421

How can I get started?

$\triangle WYZ$ is equilateral and $\triangle WXY$ is isosceles with a vertex angle of $\angle XWY.$ If the perimeter of the entire figure is $22$ units and the area of the entire figure is $9 \sqrt{3} + 4 \sqrt{5},$ what are the side lengths read more ..

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Pangolin14 Nov 2, 2020

0

758

8

+421

I need hints!

How many pairs of vertical angles are formed by five distinct lines that have a common point of intersection?

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Pangolin14 Nov 1, 2020

+2

1134

23

+421

Tricky probability... Hints??

I roll a die and flip three coins at the same time, and repeat this multiple times. What is the probability that I flip three heads twice in a row before I roll two 6's twice in a row?

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Pangolin14 Oct 28, 2020

0

603

3

+421

My question! Someone please confirm the answer!

There is a right triangle ABC. Square XBYZ is inscribed in it, where Z is touching AC and XB is on AB. If [XBYZ] = 36, then what are the side lengths of the triangle?

Pangolin14 Oct 26, 2020

0

558

2

+421

Please I need hints

Let TU and VW be chords of a circle, which intersect at S, as shown. If ST=3,TU=15 , and VW=3, then find SW .

I tried using power of a point and I got 18 but it was not correct fsr... .-.
read more ..

Pangolin14 Oct 11, 2020

+421

+1

We would have the best luck of using our information of the total number of people and getting a venn diagram. So let's do that.

Favorable/possible = 0.784, so f/201 = 0.784. Thus, there are 201-157.584 = 43.416 people who have pickup trucks.

Favorable / possible = 0.684, so f/201 = 0.684. Thus, there are 201-137.484=63.516 people who have attached earlobes (ik right?)

favorable / possible = f/#of attached earlobes = f/63.516, and 43.416 + 63.516 = 106.932, so there are 0 people that have both attached earlobes and a pick up truck? I'm probably wrong, just this question is an incorrect question because it doesn't have integer number of people for each case.

Pangolin14Dec 21, 2020

+421

-2

OQ = OR = 4√3

Circumradius of a triangle = $\frac{ a b c}{\sqrt{(a + b - c) (a - b + c) (-a + b + c) (a + b + c)}}$

Inputting 4√3, we have $4\sqrt{3} = \frac{48c}{\sqrt{(8\sqrt{3} - c) (c) (c) (8\sqrt{3} + c)}}$

Which simplifies to $4\sqrt{3} = \frac{48c}{\sqrt{(8\sqrt{3} - c)(8\sqrt{3}+c)(c^2)}}$

By difference of squares, $4 \sqrt{3} = \frac{48c}{\sqrt{192-c^2)(c^2}} = \frac{48c}{c \sqrt{192-c^2}} = \frac{48}{\sqrt{192-c^2}} = \frac{48 \sqrt{192-c^2}}{192-c^2}.$

Cross multiplying, $768 \sqrt{3} - 4c^2 \sqrt{3} = 48 \sqrt{192-c^2}$ and $192 \sqrt{3} - c^2 \sqrt{3} = 12 \sqrt{192-c^2}$ and squaring, $(192-c^2)(192-c^2)(3) = 144(192-c^2),$ so $192-c^2 = 48,$ and consequently, $c=12.$ Thus, 12^2 / 4 * √3 = 144/4 * √3 = 36√3.

$\square$

Seems like the person who answered forgot to square the 12 :)

Pangolin14Dec 21, 2020

+421

0

Reverse engineer the function; a+b=5, and b-a=1. So, a=2 and b=3, so h(6) = 12+3 = 15.

Pangolin14Dec 19, 2020

+421

0

tan(48) * 30 + 16

Pangolin14Dec 19, 2020

+421

+1

Oh, calculation error. In the previous post I basically meant what you had written, except somehow multiplied by 24 instead of 12...?

Pangolin14Dec 19, 2020

+421

0

Thanks! Exactly what I got!

Pangolin14Dec 19, 2020

+421

+1

Please be careful when you are answering, ABD is not half of 105 degrees and AB≠AC.

Pangolin14Dec 18, 2020

+421

0

Whoops, I acutally meant to say sqrt(16x^2 + 8x^2) = 2√6, so it is just √6

Pangolin14Dec 18, 2020

+421

0

Do the discriminant; b^2-4ac, we must have b^2 -4ac = 0: first one: 16-20 ≠0, second one: 36 - 4*36 ≠0, third one: 26^2 - 4 * 13^2 ... yay! That equals 0. Another way we could do this is we could factor each and see which one is a perfect square binomial. So it is x^2 + 26x + 169, which factors as (x+13)^2, so -13, or vieta's formulas on -b/a to get -26/1 is the sum of the roots, except we double count so it is -13 either way!

Pangolin14Dec 18, 2020

+421

0

Just input, (2,1) is for (x,y), so for the first one -4 - 4 = -8, False, the second, 2 - 4 = -2, false, the third, -2 + 4 = 2, true, and the fourth, 2 + 4 = 6, true. Both 3 and 4

Pangolin14Dec 18, 2020