Transcription of THREE–DIMENSIONAL GEOMETRY - Number theory
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Chapter 8 three IntroductionIn this chapter we present a vector algebra approach to three dimensionalgeometry. The aim is to present standard properties of linesand planes,with minimum use of complicated three dimensional diagrams such as thoseinvolving similar triangles. We summarize the chapter:Pointsare defined as ordered triples of real numbers and thedistancebetween pointsP1= (x1, y1, z1) andP2= (x2, y2, z2) is defined by theformulaP1P2=p(x2 x1)2+ (y2 y1)2+ (z2 z1) line segments-ABare introduced as three dimensional columnvectors: IfA= (x1, y1, z1) andB= (x2, y2, z2), then-AB= x2 x1y2 y1z2 z1.
150 chapter 8. three–dimensional geometry ☛ y z x o a c d b ab= cd, ac= bd ab +
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250 PROBLEMS IN ELEMENTARY NUMBER, 250 problems in elementary number theory, ELEMENTARY LINEAR ALGEBRA, Number theory, Galois theory, Theory, Teach Probability in the Elementary Classroom, Using manipulatives to teach elementary, Brief Review of Elementary Quantum Chemistry, Ludwig von Bertalanffy, ELEMENTARY