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| =====Geometry Reference Page===== | =====Geometry Reference Page===== | ||
| - | Contents: | + | * [[Angles|Angles and Vectors]] |
| - | * [[#Angles and Vectors]] | + | * [[Triangles]] |
| - | * [[#Polygons]] | + | * [[Circles|Circles, Chords, etc]] |
| - | * [[#Triangles|Triangles]] | + | * [[Polygons]] |
| - | * [[#Circles|Circles and Chords]] | + | |
| - | * [[#Graphing|Graphing curves, circles, etc.]] | + | === misc === |
| + | Truth tables: | ||
| + | first columns : True/False values of the variables, such as p, q, or p' or ~p for inverse values. Next columns are logic combinations of the variables | ||
| - | ====Angles and Vectors==== | + | | p | q | p ⋂ q | p ⋃ q| p => q | |
| - | + | | T | T | T | T | T | | |
| - | __Complementary angles__ add up to 90' (like the two non-right angles in a right triangle) | + | | T | F | F | T | F | |
| - | + | | F | T | F | T | T | | |
| - | __Supplementary angles__ add up to 180' | + | | F | F | F | F | T | |
| - | + | ||
| - | __Distance between two points__ = √(Δx² + Δy²) (based on Pythagorean theorem) | + | |
| - | + | ||
| - | Length of a vector can be written as ||v|| (the "norm" of vector v)<p> | + | |
| - | Distance of two vectors: first add the vectors to make a combined vector | + | |
| - | Adding vectors: add each part of the vector, ie. (x1 + x2, y1 + y2) | + | |
| - | + | ||
| - | ====Polygons==== | + | |
| - | + | ||
| - | The __sum of angles in a polygon__ = 180 (n - 2), where n = number of sides. This can also be written as: 180 + 180 (n-3). (Basically you add in another triangle when adding a side to polygon) | + | |
| - | + | ||
| - | ====Triangles==== | + | |
| - | + | ||
| - | Definitions: | + | |
| - | * isosceles - 2 sides the same length | + | |
| - | * equilateral - all 3 sides the same length | + | |
| - | * similar triangles - triangles that have same shape (all 3 angles), but size can be different. The sides have same ratios | + | |
| - | * congruent triangles - triangles that have the same shape and size | + | |
| - | * CPCT - corresponding parts of congruent triangles (are equal) | + | |
| - | + | ||
| - | __Centroid of a triangle__ - center (where the lines bisecting each angle will meet) | + | |
| - | * average the x corner values, and average of y corner values | + | |
| - | * the bisecting line will have 2/3 of its length between the corner and the centroid and 1/3 from centroid to far side of triangle | + | |
| - | * the six small triangles formed by bisecting lines all have equal area | + | |
| - | + | ||
| - | Area of a triangle = base*height/2 | + | |
| - | + | ||
| - | __Heron's formula__ - area of any triangle, with sides of length a,b,c, don't know height | + | |
| - | semiperimeter (sp) = perimeter/2 = (a+b+c)/2 | + | |
| - | area = √(sp(sp-a)(sp-b)(sp-c)) | + | |
| - | + | ||
| - | ===Congruent triangles=== | + | |
| - | + | ||
| - | Theorems to prove triangles are congruent: | + | |
| - | * AAS - angle-angle-side | + | |
| - | * ASA - angle-side-angle | + | |
| - | * SAS - side-angle-side | + | |
| - | * SSS - side-side-side | + | |
| - | * RHS - right-angle, hypotenuse, side (basically ASS, which doesn't work for all angles, but does for right-angle). Using Pythagorean theorem can be converted to SSS. | + | |
| - | + | ||
| - | ===Right Triangles=== | + | |
| - | + | ||
| - | 45-45-90 triangle: hyp = side * √2 | + | |
| - | 30-60-90 triangle: short side = a, long side = a*√3, hyp = 2a | + | |
| - | + | ||
| - | __area__ of a right triangle = 1/2*h*w | + | |
| - | + | ||
| - | __hypotenuse__ is the side opposite the right angle, __opposite__ is the side opposite the given angle, __adjacent__ is the side next to the given angle | + | |
| - | + | ||
| - | SOHCAHTOA (Soak a toe-ah): Sin=Opp/Hyp, Cos=Adj/Hyp, Tan=Opp/Adj | + | |
| - | + | ||
| - | __law of sines:__ | + | |
| - | sin(A)/a = sin(B)/b = sin(C)/c (sometimes a/sin(A) = ...) | + | |
| - | + | ||
| - | __law of cosines__ - to find an angle when all the sides are known | + | |
| - | cos(A) = (b² + c² - a²) / (2bc) | + | |
| - | cos(C) = (a² + b² - c²) / (2ab), cos(B) is same pattern | + | |
| - | (side a is opposite angle A, etc) | + | |
| - | rewriting it: c = √(a² + b² - 2abcos(C)) | + | |
| - | + | ||
| - | ====Circles==== | + | |
| - | + | ||
| - | * __chord__ has two endpoints on a circle | + | |
| - | * __secant__ is a line that contains a chord, but extends beyond the circle | + | |
| - | * __Intercepted arc__ is the part of the circle contained within the two lines | + | |
| - | * __Central angle__ is angle of two lines from the center of the circle | + | |
| - | * __Inscribed/Interior angle__ has two points and the vertex all on the circle itself | + | |
| - | * __central angle__ is same as the degrees of intercepted arc | + | |
| - | + | ||
| - | if two chords AB, CD intersect at P, then AP * PB = CP * PD | + | |
| - | + | ||
| - | Interior angle = 1/2 of intercepted arc | + | |
| - | all inscribed angles going to the two same points on the circle have the same angle | + | |
| - | angle of intersecting secants theorem: | + | |
| - | angle formed by the secant intersection = (opposite arc - adjacent arc)/2 | + | |
| - | + | ||
| - | An angle outside the circle with two secants (or tangents) will have an angle | + | |
| - | that is 1/2 * (difference of the intercepted arcs) | + | |
| - | + | ||
| - | coterminal angle - the rest of the circle outside the angle. | + | |
| - | eg. angle of 30', the coterminal is 330' | + | |
| - | in radians, use the absolute value. | + | |
| - | 2pi - |angle|, or |angle| - 2pi for the negative angle | + | |
| - | + | ||
| - | + | ||
| - | area of an arc: | + | |
| - | a = rad*r²/2 .... comes from a = πr² for full circle, and the | + | |
| - | proportion of a circle in the arc is rad/2π | + | |
| - | so a = (rad/2π)*(πr²) | + | |
| - | + | ||
| - | ====Graphing==== | + | |
| - | + | ||
| - | + | ||
| - | vertex of a parabola: for y = ax^2 + bx + c, then x = -b/2a | + | |
| - | + | ||
| - | standard form of a parabola: | + | |
| - | (x-h)² = 4p(y-k) => if p>0, opens up, p<0 opens down | + | |
| - | (y-k)² = 4p(x-h) => if p>0, opens to right, p<0 opens to left | + | |
| - | where point (h,k) is the vertex, and | + | |
| - | p = minimum distance between parabola and vertex (is on axis of symmetry, | + | |
| - | which is perpendicular to the directrix) | + | |
| - | LR (latus rectum line) is line parallel to directrix going thru focus | + | |
| - | (if you know focus, easy to find LR points and vertex, then draw the function) | + | |
| - | length of LR is |4p| | + | |
| - | + | ||
| - | Standard form of a circle: | + | |
| - | (x-h)² + (y-k)² = r² | + | |
| - | where point (h,k) is the center, and r is radius | + | |
| - | This can be expanded to x² + y² + Dx + Ey + F = 0 (aka the General form) | + | |
| - | Can go from general form to standard form by completing the square | + | |
| - | Ellipse - sum of distance from two foci is a constant | + | p => q means condition p implies condition q. If p is true, then an implication can be drawn or not, depending on q. If p is false, then an implication cannot be ruled out, regardless of q, so it is left as true. |
| - | points on the ellipse follow the formula: | + | |
| - | (x-h)²/a² + (y-k)²/b² = 1 | + | |
| - | and | + | |
| - | c² = a² - b² | + | |
| - | center C = (h,k) | + | |
| - | a = distance from C to long end of ellipse (along major axis) | + | |
| - | b = distance from C to close end of ellipse (along minor axis) | + | |
| - | c = distance from center to a focus | + | |
| - | (x,y) = a point on the ellipse | + | |
| - | Hyperbola - difference of distance from two foci is a constant | ||
| === See Also === | === See Also === | ||
| - | * https://www2.clarku.edu/faculty/djoyce/trig/identities.html | ||
| * 11 pages of definitions, postulates and theorems: http://www.ouchihs.org/ourpages/auto/2013/7/26/52822673/Geo-PostulatesTheorems-List.pdf | * 11 pages of definitions, postulates and theorems: http://www.ouchihs.org/ourpages/auto/2013/7/26/52822673/Geo-PostulatesTheorems-List.pdf | ||
| Back to [[math]] page. | Back to [[math]] page. | ||
urp/geometry.1634101750.txt.gz · Last modified: 2021-10-13 by nerf_herder
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