analytical geometry
DESCRIPTION
TRANSCRIPT
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ANALYTICAL GEOMETRY
SJ van Heerden 09/03/2014
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HISTORYIntroduced in the 1630s
Aided the development of calculus
RENE DESCARTES (1596-1650) and
PIERRE DE FERMAT (1601-1665),
French mathematicians,
independently developed
the foundations for
analytical geometry
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CARTESIAN PLANE
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• x-axis (horizontal axis) where the x values are plotted along.
• y-axis (vertical axis) where the y values are plotted along.
• origin, symbolized by 0, marks the value of 0 of both axes
• coordinates are given in the form (x,y) and is used to represent different points on the plane.
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Slope of a Line
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Slope of a Line
• If line rises from left to right,
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Slope of a Line
• If line goes from right to left
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Slope of a Line
• If line is parallel to x-axis
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Slope of a Line
• If line is parallel to y-axis
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Inclination of a Line
O M
θx
y
L
O M
θx
y
L
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Angle between Two Lines
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Angle between Two Lines
• If θ is angle, measured counter-clockwise, between two lines, then
• where m2 is the slope of the terminal side and m1 is the slope of the initial side
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SLOPE OF PARALLEL LINES
• Two non-vertical lines and are parallel if and only if their slopes are equal and the angle of inclination are also equal.
(slope)
(angle ofinclination)
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SLOPE OF PERPENDICULAR LINES
• Two non-vertical lines and are perpendicular if and only if their slopes are negative reciprocals of each other.
or
or
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•
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c. INTERCEPT FORM - the intercept form is given by the equation
d. TWO-POINT FORM - the two point form equation of the line is given by
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• The general form of the equation of a line is given by
where A, B and C are non-zero constants and x and y
are variables of degree one.
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Sample Problems•
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3. Show by means of slope that the points , , and are the vertices of a parallelogram.
4. Show by means of slope that the points , and are vertices of a right triangle.
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5. Find the angle from the line through the points and to the line through the points and .
6. The angle between two lines and is . If the gradient of is , find the gradient of .
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1. Find the general equation of the line through with slope 4.
2. Find the general equation of the line passes through the point and .
3. Find the general equation of the line having gradient of and y-intercept of .
4. Reduce the equation of to the slope intercept form.
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5. Find the general equation of the line having x-intercept of 3 and y-intercept of -2.6. Find the general equation of the line passes through the point and with equal intercepts.7. Determine the general equation of the line passes through the following points:
a. b.
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1. Find the equation of the line parallel to through the point .
2. Find the equation of the line through which is perpendicular to the line which passes through the points and .
3. Show that lines and form a rectangle.
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EQUATION OF A CIRCLE
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• Using distance formula to find the distance between points A and B, we have
(1)• Since the distance between points A and B is the radius of
the circle, we will let d = r. Thus, (2)
• Point A is in the origin, therefore , then
(3)
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• From (3), we can say that the equation of circle having its center at the origin is,
B
A
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EQUATION OF CIRCLE (origin is not the center)
A (h, k)
B ( x, y)
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• The distance between points A and B is still the radius of the circle. So,
(5)• Thus, (5) is the equation of the circle if the center is at (h,
k). • Expanding (5), and letting, it will lead to the general
equation of the circle. Thus,
(6)
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Graph the following circle.
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REFERENCES
- Felipe, N, M. (2013). Analytic geometry basic concepts [PowerPoint Presentation]. Available at: http://www.slideshare.net/NancyFelipe1/analytic-geometry-basic-concepts.Accessed on: 4 March 2014
- Marasigan, D. (2013). Lecture #2 analytic geometry [PowerPoint Presentation]. Available at: http://www.slideshare.net/denmarmarasigan/lecture-2-analytic-geometry.Accessed on: 4 March 2014
- Marasigan, D. (2013). Lecture #3 analytic geometry [PowerPoint Presentation]. Available at: http://www.slideshare.net/denmarmarasigan/lecture-3-analytic-geometry.Accessed on: 4 March 2014
- Marasigan, D. (2013). Lecture #5 analytic geometry [PowerPoint Presentation]. Available at: http://www.slideshare.net/denmarmarasigan/lecture-5-analytic-geometry. Accessed on: 4 March 2014
- Demirdag, M. (2013). Analytic geometry [PowerPoint Presentation]. Available at: http://www.slideshare.net/mstfdemirdag/analytic-geometry-8693115. Accessed on: 4 March 2014