Link to the online timed test on questions you mostly got wrong or not fast enough.
(sent through e-mail)
Common Pythagorean Triples:
3, 4, 5 and its derivatives
5, 12, 13
8, 15, 17
7, 24, 25 (at least these for SAT I and II)
9, 40, 41, (the rest for state and Nationals, so we'll learn them later)
11, 60, 61
12, 35, 37
13, 84, 85
20, 21, 29
Shoe string method in finding the area of any polygon
Heron's formula in finding the area of a triangle.
Don't mix up the "s" with the other "S" of finding
the area of an equilateral triangle -- proof and formula (You can also use 30-60-90 special right
triangle to get that.)
or
the area of a regular hexagon
In Heron's case, "s" stands for half of the perimeter.
Besides, I've noticed most of the questions, when given the sides, are best solved by using Pythagorean triples, especially in sprint round questions, so make sure to actively evaluate the question(s) at hand and use the most efficient strategy.
Here is the link to 2003 chapter #29 that most of you got wrong:
You don't need to use complementary counting for that specific question since it's equal cases either way. Make sure you understand why you need to times 3.
(AA_, A_A, and _AA for team A to be chosen two out of three days).
From Mathcounts Mini: Area of irregular polygon
See if you can use shoestring method to get the same answer.
Second half is again on similar triangles, dimensional change and sometimes
Pythagorean triples.
From NOVA : Fractals - Hunting the Hidden Dimension
Showing posts with label Heron's formula. Show all posts
Showing posts with label Heron's formula. Show all posts
Wednesday, May 15, 2013
Tuesday, December 11, 2012
Review: Shoestring method, Heron's formula, Pythagorean Triples and Others related to Area of a triangle or polygon
Please give me feedback if there is any error or what concepts to be included for future practice tests. Thanks a lot in advance.
Online practices on finding the area of a triangle or irregular polygons.
Click here for the timed online test. Type in your first name and only write down "number" answers.
Before trying out the online timed test, here are some reminders.
a. If the irregular polygon include the origin, then using that as a starting point for shoestring method might save some calculation time.
b. There are Pythagorean Triples hidden in lots of questions that ask for the area of a triangle given three side lengths. Thus, if you find the side length that matches the triples or multiples of the triples, it might be much easier to use that instead of heron's formula.
c. For quadrilaterals, if the diagonals are perpendicular to each other, such as rhombus, kite or others, it's much easier to use D1* D2 / 2 to get the area.
d. Sometimes breaking the polygon into different smaller parts is the easiest way to find the answer.
e. Deliberate practices are the key to steady progress.
Have fun problem solving!!
Online practices on finding the area of a triangle or irregular polygons.
Click here for the timed online test. Type in your first name and only write down "number" answers.
Before trying out the online timed test, here are some reminders.
a. If the irregular polygon include the origin, then using that as a starting point for shoestring method might save some calculation time.
b. There are Pythagorean Triples hidden in lots of questions that ask for the area of a triangle given three side lengths. Thus, if you find the side length that matches the triples or multiples of the triples, it might be much easier to use that instead of heron's formula.
c. For quadrilaterals, if the diagonals are perpendicular to each other, such as rhombus, kite or others, it's much easier to use D1* D2 / 2 to get the area.
d. Sometimes breaking the polygon into different smaller parts is the easiest way to find the answer.
e. Deliberate practices are the key to steady progress.
Have fun problem solving!!
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