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Spring 2012-2014 Student Performance Analysis Presentation may be paused and resumed using the arrow keys or the mouse. Geometry Standards of Learning.

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Presentation on theme: "Spring 2012-2014 Student Performance Analysis Presentation may be paused and resumed using the arrow keys or the mouse. Geometry Standards of Learning."— Presentation transcript:

1 Spring 2012-2014 Student Performance Analysis Presentation may be paused and resumed using the arrow keys or the mouse. Geometry Standards of Learning

2 SOL G.1 The student will construct and judge the validity of a logical argument consisting of a set of premises and a conclusion. This will include: a) identifying the converse, inverse, and contrapositive of a conditional statement; b)translating a short verbal argument into symbolic form; c)using Venn diagrams to represent set relationships; and d)using deductive reasoning. Translating a Short Verbal Argument into Symbolic Form 2012

3 2012 Suggested Practice for SOL G.1 Students need additional practice using and interpreting the symbols : V Λ ∴ Let m represent: Angle A is obtuse. Let n represent: Angle B is obtuse. Which is a symbolic representation of the following argument? Angle A is obtuse if and only if Angle B is obtuse. Angle A is obtuse or Angle B is obtuse. Therefore, Angle A is obtuse and Angle B is obtuse. A. m → n B. m → n C. m ↔ n D. m ↔ n m ∧ n m ∨ n ∴ m ∨ n ∴ m ∧ n

4 SOL G.1 The student will construct and judge the validity of a logical argument consisting of a set of premises and a conclusion. This will include: a)identifying the converse, inverse, and contrapositive of a conditional statement; b)translating a short verbal argument into symbolic form; c)using Venn diagrams to represent set relationships; and d)using deductive reasoning. Judging the Validity of a Logical Argument 2013

5 Students need additional practice judging the validity of a logical argument and using valid forms of deductive reasoning, including the law of syllogism, the law of contrapositive, the law of detachment, and counterexamples. Example of the law of detachment: Let p = “a dog eats bread” Let q = “the dog gains weight” p → q, “If a dog eats bread, then the dog gains weight” is a true statement. John’s dog eats bread. What can be concluded? John’s dog gains weight. 2013 Suggested Practice for SOL G.1

6 Example of the law of contrapositive: Let p = “a dog eats bread” Let q = “the dog gains weight” p → q means “If a dog eats bread, then the dog gains weight.” p → q is a true statement. What is the contrapositive of this statement? Is it a true statement? “If the dog does not gain weight, then the dog does not eat bread” is a true statement. 2013 Suggested Practice for SOL G.1

7 Example of the law of syllogism: Let p = “a dog eats bread” Let q = “the dog gains weight” Let r = “the dog gets fat” p → q means “If a dog eats bread, then the dog gains weight.” q → r means “If the dog gains weight, then the dog gets fat.” Using the law of syllogism, what is the logical conclusion? The law of syllogism concludes: p → r, which translates to: “If a dog eats bread, then the dog gets fat.” 2013 Suggested Practice for SOL G.1

8 Example of a counterexample: Let p = “n is an integer and n² is divisible by 4” Let q = “n is divisible by 4” p → q means “If n is an integer and n² is divisible by 4, then n is divisible by 4.” A counterexample is any example that will prove a statement false. In this case, a number for which p is true and q is false is a counterexample. What is a counterexample to p → q ? In this case, n = 10 is a counterexample because 10² = 100 and 100 is divisible by 4, but 10 is not divisible by 4. Other possible answers: 2, 6, 14, 18, etc. 2013 Suggested Practice for SOL G.1

9 Determining and Verifying Parallelism 2012, 2013, 2014 SOL G.2 The student will use the relationships between angles formed by two lines cut by a transversal to a)determine whether two lines are parallel; b)verify the parallelism, using algebraic and coordinate methods as well as deductive proofs; and c)solve real-world problems involving angles formed when parallel lines are cut by a transversal.

10 2012 Suggested Practice for SOL G.2 Students need additional practice identifying which parts of a figure can be used to determine whether lines are parallel when more than one statement may be true. Lines a and b intersect lines c and d. Which statement could be used to prove a ║ b and c ║ d ? A. ∠ 1 and ∠ 2 are supplementary and ∠ 5 ≅ ∠ 6 B. ∠ 1 ≅ ∠ 3 and ∠ 3 ≅ ∠ 5 C. ∠ 3 and ∠ 5 are supplementary, and ∠ 5 and ∠ 6 are supplementary D. ∠ 3 ≅ ∠ 4 and ∠ 2 ≅ ∠ 6 a b c d 1 2 3 4 5 6

11 2013 Suggested Practice for SOL G.2a Students need additional practice determining parallelism in complex figures. Given information about a figure, determine parallel lines or congruent angles. This is an example of a complex figure with more than one transversal.

12 2013 Suggested Practice for SOL G.2a Given: a ll c What is the value of x ? x = 105 Is b ll c ? Why or why not? No, because there are no congruent corresponding, alternate interior, or alternate exterior angles. Is d ll e ? Why or why not? No, because there are no congruent corresponding, alternate interior, or alternate exterior angles. 85° x°x° 105°

13 2013 Suggested Practice for SOL G.2a Given: a ll b and d ll e Find the values of x, y, and z. x = 73 y = 107 z = 63 107° x° 117° y° a b c d e z°

14 Students need additional practice determining and using parallelism from given information on a figure. This figure has more than one transversal and markings to indicate congruent angles. 2014 Suggested Practice for SOL G.2 ab c d Which statement about the figure shown must be true? A. Only a ll b B. Only c ll d C. Both a ll b and c ll d D. No lines are parallel.

15 This figure has more than one transversal. Two angle measurements are shown. (Figure is not drawn to scale.) 2014 Suggested Practice for SOL G.2 Based only on the information given, which statement about the figure shown must be true? A. Only a ll b B. Only c ll d C. Both a ll b and c ll d D. No lines are parallel. ab c d 87°

16 In the figure shown, line c and line d are cut by a transversal. (Figure is not drawn to scale.) 2014 Suggested Practice for SOL G.2 For what value of x will line c be parallel to line d ? A. B. C. D. c d (2 x + 40)˚ (6 x + 20)˚ 5 15 20 30

17 Identifying Parallel and Perpendicular lines 2012, 2013, 2014 SOL G.3 The student will use pictorial representations, including computer software, constructions, and coordinate methods, to solve problems involving symmetry and transformation. This will include a)investigating and using formulas for finding distance, midpoint, and slope; b)applying slope to verify and determine whether lines are parallel or perpendicular; c)investigating symmetry and determining whether a figure is symmetric with respect to a line or a point; and d)determining whether a figure has been translated, reflected, rotated, or dilated, using coordinate methods.

18 2012 Suggested Practice for SOL G.3 Students need additional practice using slopes related to parallel or perpendicular lines. Line a passes through points with coordinates (-4, 5) and (2, -2). What is the slope of a line perpendicular to line a ? Slope of perpendicular line =

19 2012 Suggested Practice for SOL G.3 Students need additional practice finding the coordinates of vertices after a figure has been transformed. Given: Triangle ABC with vertices located at A (1, 1), B (2, -3), and C (-1, -4). Triangle ABC will be reflected over the line y = x. What will be the integral coordinates of point C ' after this transformation?

20 Find the coordinates of a point that lies on a line which passes through point P and is parallel to line c. Possible answers: (-10,0), (-7,-2), (-1,-6), (2,-8), (5,-10) Find the coordinates of a point that lies on a line which passes through point P and is perpendicular to line c. Possible answers: (-6,-7), (-2,-1), (0, 2), (2, 5), (4, 8) 2013 Suggested Practice for SOL G.3 Students need additional practice determining parallel and perpendicular lines on a coordinate grid. P c

21 2014 Suggested Practice for SOL G.3 1. Find the coordinates of a point on the graph that lies on a line which passes through point N and is parallel to line a. 2.Find the slope of a line which passes through point N and is perpendicular to line a. Possible answers: 3.The coordinates of a point that lies on a line which passes through point N and is perpendicular to line a are represented by. What is the value of the y -coordinate? Students need additional practice applying the relationship between slopes of parallel and perpendicular lines to given situations. N a Use this graph to answer the questions. All points have integral coordinates.

22 SOL G.4 The student will construct and justify the constructions of a)a line segment congruent to a given line segment; b)the perpendicular bisector of a line segment; c)a perpendicular to a given line from a point not on the line; d)a perpendicular to a given line at a point on the line; e)the bisector of a given angle; f)a line parallel to a given line through a point not on the given line. Justifying Constructions 2013

23 Which statement justifies this construction? A. ∠ A ≅ ∠ D because they are corresponding parts of congruent triangles. B. ∠ A ≅ ∠ D because they are alternate interior angles. C. ∠ A ≅ ∠ D because AB = DE. 2013 Suggested Practice for SOL G.4 Students need additional practice justifying constructions. Arcs WX and YZ are drawn using the same radius. An arc with radius WX is centered on point Y and intersects arc YZ at point Z. A line segment will connect points D and Z.


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