Analytic Geometry Grade 9 Pdf

[Octavis Uberstine]

Thisresearch provides the instructional exploration of analytic geometry pattern based on van Hiele thinking pattern, and the potential of GeoGebra effect on experimental group along with its nested group (high and low achievers) in comparison with control group in analytic geometry. To investigate the significant effect of GeoGebra, the two match groups were constructed on their previous grade-11 mathematics records with almost equal statistical background and with the same compatibility in the biological age. Further, six-week experiments of 22 lessons were prepared and two teaching methods (tradition vs DGS aided instructions) were tested. Three hypotheses were carried out i.e. Treatment does not significantly affect, the two groups in mathematical achievement mean scores and, the higher and low achievers of the two groups in mathematical achievement mean scores. To measure the treatment effect, t-test was used by SPSS. Analyses of the research revealed that experimental group performed well, while; GeoGebra was influential in favor of low achievers in comparison to control low achievers.

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MATH 098 Intermediate Algebra (0)

Intermediate algebra equivalent to third semester of high school algebra. Includes linear equations and models, linear systems in two variables, quadratic equations, completing the square, graphing parabolas, inequalities, working with roots and radicals, distance formula, functions and graphs, exponential and logarithmic functions. Course awarded as transfer equivalency only. Consult the Admissions Equivalency Guide website for more information.

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MATH 100 Algebra (5)

Similar to the first three terms of high school algebra. Assumes no previous experience in algebra. Open only to students [1] in the Educational Opportunity Program or [2] admitted with an entrance deficiency in mathematics. Offered: A.

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MATH 111 Algebra with Applications (5) NSc, RSN

Use of graphs and algebraic functions as found in business and economics. Algebraic and graphical manipulations to solve problems. Exponential and logarithm functions; various applications to growth of money. Recommended: completion of Department of Mathematics' Guided Self-Placement. Offered: AWS.

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MATH 112 Application of Calculus to Business and Economics (5) NSc, RSN

Rates of change, tangent, derivative, accumulation, area, integrals in specific contexts, particularly economics. Techniques of differentiation and integration. Application to problem solving. Optimization. Credit does not apply toward a mathematics major. Prerequisite: minimum grade of 2.0 in MATH 111. Offered: WSp.

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MATH 124 Calculus with Analytic Geometry I (5) NSc, RSN

First quarter in calculus of functions of a single variable. Emphasizes differential calculus. Emphasizes applications and problem solving using the tools of calculus. Recommended: completion of Department of Mathematics' Guided Self-Placement. Offered: AWSpS.

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MATH 125 Calculus with Analytic Geometry II (5) NSc

Second quarter in the calculus of functions of a single variable. Emphasizes integral calculus. Emphasizes applications and problem solving using the tools of calculus. Prerequisite: either minimum grade of 2.0 in MATH 124, score of 3 on AB advanced placement test, or score of 3 on BC advanced placement test. Offered: AWSpS.

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MATH 126 Calculus with Analytic Geometry III (5) NSc

Third quarter in calculus sequence. Introduction to Taylor polynomials and Taylor series, vector geometry in three dimensions, introduction to multivariable differential calculus, double integrals in Cartesian and polar coordinates. Prerequisite: either a minimum grade of 2.0 in MATH 125, a minimum grade of 2.0 in MATH 134, or a minimum score of 4 on BC advanced placement test. Offered: AWSpS.

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MATH 282 Exploring Opportunities in the Mathematical Sciences (1)

Topics include finding a community; diversity and equity issues in STEM and the mathematical sciences; academic planning; navigating academic support services; undergraduate research; graduate school; careers in the mathematical sciences. For students interested in careers in the mathematical sciences. Credit does not apply toward a mathematics major or an applied and computational mathematical sciences major at UW Seattle. Credit/no-credit only.

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MATH 300 Introduction to Mathematical Reasoning (3) NSc

Mathematical arguments and the writing of proofs in an elementary setting. Elementary set theory, elementary examples of functions and operations on functions, the principle of induction, counting, elementary number theory, elementary combinatorics, recurrence relations. Prerequisite: minimum grade of 2.0 in either MATH 126 or MATH 136. Offered: AWSpS.

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MATH 318 Advanced Linear Algebra Tools and Applications (3)

Eigenvalues, eigenvectors, and diagonalization of matrices: nonnegative, symmetric, and positive semidefinite matrices. Orthogonality, singular value decomposition, complex matrices, infinite dimensional vector spaces, and vector spaces over finite fields. Applications to spectral graph theory, rankings, error correcting codes, linear regression, Fourier transforms, principal component analysis, and solving univariate polynomial equations. Prerequisite: a minimum grade of 2.7 in either MATH 208 or MATH 308, or a minimum grade of 2.0 in MATH 136.

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MATH 382 Careers in Mathematical Sciences (1)

Preparation for careers in the mathematical sciences. Focuses on identification of key skills; creating an effective resume; articulating interests and experiences; doing informational interviews; and demonstrating professional communication. Credit does not apply toward a mathematics major or an applied and computational mathematical sciences major at UW Seattle. Credit/no-credit only.

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MATH 394 Probability I (3) NSc

Axiomatic definitions of probability; random variables; conditional probability and Bayes' theorem; expectations and variance; named distributions: binomial, geometric, Poisson, uniform (discrete and continuous), normal and exponential; normal and Poisson approximations to binomial. Transformations of a single random variable. Markov and Chebyshev's inequality. Weak law of large numbers for finite variance. Prerequisite: either a minimum grade of 2.0 in MATH 126, or a minimum grade of 2.0 in MATH 136. Offered: jointly with STAT 394; AWSpS.

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MATH 397 Mathematical Sciences Internship (1-6, max. 12)

Academic work completed in conjunction with a mathematical sciences-related internship. Credit does not apply toward a mathematics major or an applied and computational mathematical sciences major at UW Seattle. Credit/no-credit only.

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MATH 402 Introduction to Modern Algebra (3) NSc

Elementary theory of rings and fields: basic number theory of the integers, congruence of integers and modular arithmetic, basic examples of commutative and non-commutative rings, an in depth discussion of polynomial rings, irreducibility of polynomials, polynomial congruence rings, ideals, quotient rings, isomorphism theorems. Additional topics including Euclidean rings, principal ideal domains and unique factorization domains may be covered. Prerequisite: either a minimum grade of 2.0 in MATH 300 and a minimum grade of 2.0 in either MATH 208 or MATH 308, a minimum grade of 2.0 in MATH 334, or a minimum grade of 2.0 in MATH 136 and a minimum grade of 2.0 in MATH 300. Offered: AWS.

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MATH 403 Introduction to Modern Algebra (3) NSc

Elementary theory of groups: basic examples of finite and infinite groups, symmetric and alternating groups, dihedral groups, subgroups, normal subgroups, quotient groups, isomorphism theorems, finite abelian groups. Additional topics including Sylow theorems, group actions, congugacy classes and counting techniques may be covered. Prerequisite: a minimum grade of 2.0 in MATH 402. Offered: WSp.

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MATH 424 Fundamental Concepts of Analysis (3) NSc

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MATH 425 Fundamental Concepts of Analysis (3) NSc

Introduction to metric spaces and multivariable differential calculus: Euclidean spaces, abstract metric spaces, compactness, Bolzano-Weierstrass property, sequences and their limits, Cauchy sequences and completeness, Heine-Borel Theorem, continuity, uniform continuity, connected sets and the intermediate value theorem. Derivatives of functions of several variables, chain rule, mean value theorem, inverse and implicit function theorems. Prerequisite: a minimum grade of 2.0 in either MATH 136 or MATH 208; and a minimum grade of 2.0 in either MATH 335 or MATH 424. Offered: WSp.

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