Chalkboard

Copyright
Ordering Info


© 2003 by School City of Hobart and EdVISION Corporation.
All Rights Reserved.

Made with Curriculum Designer
Made with
Curriculum Designer by
EdVISION Corporation

School City of Hobart
School City of Hobart Mathematics
Mathematics - Mathematics - Grade 8

Number Theory

Number Sense
The learner will be able to know the properties of rational* and irrational* numbers expressed in a variety of forms. They understand and use exponents*, powers, and roots. * rational numbers: numbers that can be written as a ratio of two integers* (e.g., 1/2, 5/6, 23/9) * integers: ..., -3, -2, -1, 0, 1, 2, 3, ... * irrational numbers: numbers that cannot be written as a ratio of two integers *exponent: e.g., the exponent 4 in 3 4 tells you to write four 3s and compute 3 x 3 x 3 x 3 .
Strand Scope Source
Number Sense Master IDOE
  
8.1.1
The learner will be able to read, write, compare, and solve problems using decimals in scientific notation*. Example: Write 0.00357 in scientific notation. * scientific notation: a shorthand way of writing numbers (e.g., 300,000 = 3 x 10 5, 0.0000005 = 5 x 10 -7) .
Strand Scope Source
Number Sense Master IDOE
  
8.1.2
The learner will be able to know that every rational number is either a terminating or repeating decimal and that every irrational number is a non-repeating decimal. Example: Recognize that 2.375 is a terminating decimal, 5.121212... is a repeating decimal, and that ~ = 3.14159265... is a non-repeating decimal. Name a rational number. Explain your reasoning. .
Strand Scope Source
Number Sense Master IDOE
  
8.1.3
The learner will be able to understand that computations with an irrational number and a rational number (other than zero) produce an irrational number. Example: Tell whether the product of 7 and ~ is rational or irrational. Explain how you know that your answer is correct. .
Strand Scope Source
Number Sense Master IDOE
  
8.1.4
The learner will be able to understand and evaluate negative integer* exponents. Example: Write 2-3 as a fraction. * integers: ..., -3, -2, -1, 0, 1, 2, 3,.
Strand Scope Source
Number Sense Master IDOE
  
8.1.5
The learner will be able to use the laws of exponents for integer exponents. Example: Write 2 2 x 2 3 as 2 x 2 x ... and then as a single power of 2. Explain what you are doing. .
Strand Scope Source
Number Sense Master IDOE
  
8.1.6
The learner will be able to use the inverse relationship between squaring and finding the square root of a perfect square integer. .
Strand Scope Source
Number Sense Master IDOE
  
8.1.7
The learner will be able to calculate and find approximations of square roots. Example: For an integer that is not a perfect square, find the two integers (one larger, one smaller) that are closest to its square root and explain your reasoning. .
Strand Scope Source
Number Sense Master IDOE
  
top  

Rational and Irrational Numbers

Computation
The learner will be able to compute with rational numbers* expressed in a variety of forms. They solve problems involving ratios, proportions, and percentages. * rational numbers: numbers that can be written as a ratio of two integers (e.g., 1/2, 5/6 , 23/9).
Strand Scope Source
Problem Solving Master IDOE
  
8.2.1
The learner will be able to add, subtract, multiply, and divide rational numbers (integers*, fractions, and terminating decimals) in multi-step problems. Example: -3.4 + 2.8 x 5.75 = ?, 1 4/5 + -3/8 x 2 2/9 = ?, 81.04 x 17.4 - 2.79 = ? * integers: ..., -3, -2, -1, 0, 1, 2, 3, ... .
Strand Scope Source
Problem Solving Master IDOE
  
8.2.2
The learner will be able to solve problems by computing simple and compound interest. Example: You leave $100 in each of three bank accounts paying 5% interest per year. One account pays simple interest, one pays interest compounded annually, and the third pays interest compounded quarterly. Use a spreadsheet to find the amount of money in each account after one year, two years, three years, ten years, and twenty years. Compare the results in the three accounts and explain how compounding affects the balance in each account. .
Strand Scope Source
Problem Solving Master IDOE
  
8.2.3
The learner will be able to use estimation techniques to decide whether answers to computations on a calculator are reasonable. Example: Your friend says that 15% of $25 is $375. Without solving, explain why you think the answer is wrong. .
Strand Scope Source
Problem Solving Master IDOE
  
8.2.4
The learner will be able to use mental arithmetic to compute with common fractions, decimals, powers, and percents. Example: Find 20% of $50 without using pencil and paper. .
Strand Scope Source
Problem Solving Master IDOE
  
top  

Algebraic Concepts

Algebra and Functions
The learner will be able to solve simple linear equations and inequalities. They interpret and evaluate expressions involving integer* powers. They graph and interpret functions. They understand the concepts of slope* and rate. *integers: ... -3, -2, -1, 0, 1, 2, 3,.
Strand Scope Source
Algebraic Concepts Master IDOE
  
8.3.1
The learner will be able to write and solve linear equations and inequalities in one variable, interpret the solution or solutions in their context, and verify the reasonableness of the results. Example: As a salesperson, you are paid $50 per week plus $3 per sale. This week you want your pay to be least $100. Write an inequality for the number of sales you need to make, solve it, and check that your answer is reasonable. .
Strand Scope Source
Linear Equations Master IDOE
  
8.3.2
The learner will be able to solve systems of two linear equations using the substitution method and identify approximate solutions graphically. Example: Solve the system. 2x + 3y = 6 y = 0 .
Strand Scope Source
Linear Equations Master IDOE
  
8.3.3
The learner will be able to interpret positive integer powers as repeated multiplication and negative integer powers as repeated division or multiplication by the multiplicative inverse. Example: Use a spreadsheet to explore the relationship between positive and negative integer powers by making a table of values of powers of 3, from 3 -5 to 3 5. .
Strand Scope Source
Exponents Master IDOE
  
8.3.4
The learner will be able to use the correct order of operations to find the values of algebraic expressions involving powers. Example: Use a scientific calculator to find the value of 3(2x + 5)2 when x = -35. .
Strand Scope Source
Order of Operations Master IDOE
  
top  

Functions

8.3.5
The learner will be able to identify and graph linear functions and identify lines with positive and negative slope. Example: Draw the graphs of y = 2x - 1, y = 3x - 1, y = -2x - 1, y = -3x - 1. Find the slope of each graph. What do you notice? .
Strand Scope Source
Graphing Functions Master IDOE
  
8.3.6
The learner will be able to find the slope of a linear function given the equation and write the equation of a line given the slope and any point on the line. Example: Write an equation of the line with slope 2 and y-intercept -4. .
Strand Scope Source
Functions Master IDOE
  
8.3.7
The learner will be able to demonstrate an understanding of rate as a measure of one quantity with respect to another quantity. Example: A car moving at a constant speed travels 90 km in 2 hours, 135 km in 3 hours, 180 km in 4 hours, etc. Draw a graph of distance as a function of time and find the slope of the graph. Explain what the slope tells you about the movement of the car. .
Strand Scope Source
Functions Master IDOE
  
8.3.8
The learner will be able to demonstrate an understanding of the relationships among tables, equations, verbal expressions, and graphs of linear functions. Example: Write an equation that represents the verbal description: "the perimeter of a square is four times the side length." Construct a table of values for this relationship and draw its graph. .
Strand Scope Source
Algebraic Functions Master IDOE
  
8.3.9
The learner will be able to represent simple quadratic functions using verbal descriptions, tables, graphs, and formulas and translate among these representations. Example: Draw the graph of y = x 2, y = 2x 2, and y = 3x 2. Describe their similarities and differences. .
Strand Scope Source
Absolute Value/Quadratic Functions Master IDOE
  
8.3.10
The learner will be able to graph functions of the form y = nx 2 and y = nx 3 and describe the similarities and differences in the graphs. Example: Draw the graphs of y = 2x 2 and y = 2x 3. Explain which graph shows faster growth. .
Strand Scope Source
Graphing Functions Master IDOE
  
top  

Geometry

Geometry
The learner will be able to deepen their understanding of plane and solid geometric shapes and properties by constructing shapes that meet given conditions, by identifying attributes of shapes, and by applying geometric concepts to solve problems.
Strand Scope Source
Figures: Identify Master IDOE
  
8.4.1
The learner will be able to identify and describe basic properties of geometric shapes: altitudes*, diagonals, angle and perpendicular bisectors*, central angles*, radii, diameters, and chords*. Example: Describe a central angle of a circle in words and draw a diagram. *altitude: line segment from vertex of triangle to meet the line containing the opposite side in a right angle * perpendicular bisector: line (or ray or line segment) at right angles to given line segment and dividing it in half *central angle: angle formed by joining two points on a circle to the center *chord: line segment joining two points on a circle .
Strand Scope Source
Figures: Attributes Master IDOE
  
8.4.2
The learner will be able to perform simple constructions, such as bisectors of segments and angles, copies of segments and angles, and perpendicular segments. Describe and justify the constructions. Example: Explain the procedures used to construct the three angle bisectors of a triangle. .
Strand Scope Source
Constructions Master IDOE
  
8.4.3
The learner will be able to identify properties of three-dimensional geometric objects (e.g., diagonals of rectangular solids) and describe how two or more figures intersect in a plane or in space. Example: Find two lines in your classroom that are not parallel, yet do not meet. .
Strand Scope Source
Three-Dimensional Solids Master IDOE
  
8.4.4
The learner will be able to draw the translation (slide), rotation (turn), reflection (flip), and dilation (stretches and shrinks) of shapes. Example: Draw a rectangle and slide it 3 inches horizontally across your page. Then rotate it clockwise through 90º about the bottom left vertex. Draw the new rectangle in a different color. .
Strand Scope Source
Translations Master IDOE
  
8.4.5
The learner will be able to use the Pythagorean Theorem and its converse to solve problems in two and three dimensions. Example: Measure the dimensions of a shoe box and calculate the length of a diagonal from the top right to the bottom left of the box. Measure with a string to evaluate your solution. .
Strand Scope Source
Geometric Proofs/Theorems Master IDOE
  
top  

Measurement

Measurement
The learner will be able to convert between units of measure and use rates and scale factors to solve problems. They compute the perimeter, area, and volume of geometric objects. They investigate how perimeter, area, and volume are affected by changes of scale.
Strand Scope Source
Measurement Concepts Master IDOE
  
8.5.1
The learner will be able to convert common measurements for length, area, volume, weight, capacity, and time to equivalent measurements within the same system. Example: The area of a hall is 40 square yards. What is the area in square feet? .
Strand Scope Source
Converting Master IDOE
  
8.5.2
The learner will be able to solve simple problems involving rates and derived measurements for attributes such as velocity and density. Example: A car travels at 60 mph for 20 minutes. How far does it travel? What units are appropriate for distance? Explain your answer. .
Strand Scope Source
Problem Solving Master IDOE
  
8.5.3
The learner will be able to solve problems involving scale factors, area, and volume using ratio and proportion. Example: Calculate the volume and surface area of cubes with side 1 cm, 2 cm, 3 cm, etc. Make a table of your results and describe any patterns in the table. .
Strand Scope Source
Problem Solving Master IDOE
  
8.5.4
The learner will be able to use formulas for finding the perimeter and area of basic two-dimensional shapes and the surface area and volume of basic three-dimensional shapes, including rectangles, parallelograms*, trapezoids*, triangles, circles, prisms*, cylinders, spheres, cones, and pyramids. Example: Find the total surface area of a right triangular prism 14 feet high and with a base that measures 8 feet by 6 feet. *parallelogram: a four-sided figure with both pairs of opposite sides parallel *trapezoid: a four-sided figure with one pair of opposite sides parallel *prism: solid shape with fixed cross-section (right prism is a solid shape with two parallel faces that are polygons and other faces that are rectangles) .
Strand Scope Source
Perimeter/Area/Volume Master IDOE
  
8.5.5
The learner will be able to estimate and compute the area and volume of irregular two- and three-dimensional shapes by breaking the shapes down into more basic geometric objects. Example: Find the volume of a dog house that has a rectangular space that is 3 ft by 2 ft by 5 ft and has a triangular roof that is 1.5 ft higher than the walls of the house. .
Strand Scope Source
Area Master IDOE
  
top  

Data Interpretation

Data Analysis and Probability
The learner will be able to collect, organize, represent, and interpret relationships in data sets that have one or more variables. They determine probabilities and use them to make predictions about events.
Strand Scope Source
Data Collection and Classification Master IDOE
  
top  

Probability/Statistics

8.6.1
The learner will be able to identify claims based on statistical data and, in simple cases, evaluate the reasonableness of the claims. Design a study to investigate the claim. Example: A study shows that teenagers who use a certain brand of toothpaste have fewer cavities than those using other brands. Describe how you can test this claim in your school. .
Strand Scope Source
Data Analysis Master IDOE
  
8.6.2
The learner will be able to identify different methods of selecting samples, analyzing the strengths and weaknesses of each method, and the possible bias in a sample or display. Example: Describe possible bias in the following survey: A local television station has a daily call-in poll. Viewers of the morning and noon newscasts are asked to call one telephone number to answer "yes" and a different telephone number to answer "no." The results are reported on the six-o'clock newscast. .
Strand Scope Source
Sampling Master IDOE
  
8.6.3
The learner will be able to understand the meaning of, and be able to identify or compute the minimum value, the lower quartile*, the median*, the upper quartile*, the interquartile range, and the maximum value of a data set. Example: Arrange a set of test scores in increasing order and find the lowest and highest scores, the median, and the upper and lower quartiles. *lower quartile: the value that separates the lowest one-fourth of the values from the rest of the values *median: the value that divides a set of data written in order of size into two equal parts *upper quartile: the value that separates the highest one-fourth of the values from the rest of the values .
Strand Scope Source
Data Analysis Master IDOE
  
top  

Data Interpretation

8.6.4
The learner will be able to analyze, interpret, and display single- and two-variable data in appropriate bar, line, and circle graphs; stem-and-leaf plots*; and box-and-whisker plots* and explain which types of display are appropriate for various data sets. Example: The box-and-whisker plots below show winning times (hours: minutes) for the Indianapolis 500 race in selected years: 2:40 2:50 3:00 3:10 3:20 3:30 3:40 3:50 4:00 1981-1995 1966-1980* 1951-1965 *Except 1967, 1973, 1975, and 1976. In the years from 1951-1965, the slowest time was 3 h 57 min. Explain how the slowest time changed through the years 1951-1995. How did winning times change during that period? How did the median times change in the same period? *stem-and-leaf plot: e.g., this one shows 62, 63, 67, 71, 75, 75, 76, etc. Stem Leaf 6 2 3 7 7 1 5 5 6 8 9 8 0 1 1 2 3 5 5 7 8 8 9 1 2 2 3 3 4 *box-and-whisker plot: diagram showing median, quartiles, and range (see diagram on previous page) .
Strand Scope Source
Analyzing/Evaluating Graphical Forms Master IDOE
  
8.6.5
The learner will be able to represent two-variable data with a scatterplot* on the coordinate plane and describe how the data points are distributed. If the pattern appears to be linear, draw a line that appears to best fit the data and write the equation of that line. Example: Survey some of the students at each grade level in your school, asking them how much time they spend on homework. Plot the grade level and time of each student as a point (grade, time) on a scatter diagram. Describe and justify any relationship between grade and time spent on homework. *scatterplot: a coordinate graph showing ordered pairs of data .
Strand Scope Source
Scatterplots Master IDOE
  
top  

Probability/Statistics

8.6.6
The learner will be able to understand and recognize equally likely events. Example: When you roll a number cube, what is the probability that the number on the top face will be a 6? Explain your answer. .
Strand Scope Source
Probability Master IDOE
  
8.6.7
The learner will be able to find the number of possible arrangements of several objects by using the Basic Counting Principle. Example: You are planning to place four pictures in a line on a shelf. Find the number of ways you can arrange the four pictures. .
Strand Scope Source
Combinations Master IDOE
  
top  

Problem Solving

Problem Solving
The learner will be able to make decisions about how to approach problems and communicate their ideas.
Strand Scope Source
Analyzing Problems Master IDOE
  
8.7.1
The learner will be able to analyze problems by identifying relationships, telling relevant from irrelevant information, identifying missing information, sequencing and prioritizing information, and observing patterns. Example: Solve the problem: "For computers, binary numbers are great because they are simple to work with and they use just two values of voltage, magnetism, or other signal. This makes hardware easier to design and more noise resistant. Binary numbers let you represent any amount you want using just two digits: 0 and 1. The number you get when you count ten objects is written 1010. In expanded notation, this is 1 x 2 3 + 0 x 2 2 + 1 x 2 1 + 0 x 2 0. Write the number for thirteen in the binary (base 2) system." Decide to make an organized list. .
Strand Scope Source
Analyzing Problems Master IDOE
  
8.7.2
The learner will be able to make and justify mathematical conjectures based on a general description of a mathematical question or problem. Example: In the first example, if you have only two symbols, 0 and 1, then one object: 1, two objects: 10, three objects: 11, four objects: 100. Predict the symbol for five objects. .
Strand Scope Source
Analyzing Problems Master IDOE
  
8.7.3
The learner will be able to decide when and how to divide a problem into simpler parts. Example: In the first example, write expanded notation for the number five in base 2; begin with the fact that 5 = 4 + 1. .
Strand Scope Source
Analyzing Problems Master IDOE
  
8.7.4
The learner will be able to apply strategies and results from simpler problems to solve more complex problems. Example: In the first example, write the first five numbers in base 2 notation and look for a pattern. .
Strand Scope Source
Strategies Master IDOE
  
8.7.5
The learner will be able to make and test conjectures by using inductive reasoning. Example: In the first example, predict the base 2 notation for six objects, then use expanded notation to test your prediction. .
Strand Scope Source
Strategies Master IDOE
  
8.7.6
The learner will be able to express solutions clearly and logically by using the appropriate mathematical terms and notation. Support solutions with evidence in both verbal and symbolic work. Example: In the first example, explain how you will find the base two notation for thirteen objects. .
Strand Scope Source
Solution Master IDOE
  
8.7.7
The learner will be able to recognize the relative advantages of exact and approximate solutions to problems and give answers to a specified degree of accuracy. Example: Measure the length and width of a basketball court. Use the Pythagorean Theorem to calculate the length of a diagonal. How accurately should you give your answer? .
Strand Scope Source
Evaluating Solutions Master IDOE
  
8.7.8
The learner will be able to select and apply appropriate methods for estimating results of rational-number computations. Example: Use a calculator to find the cube of 15. Check your answer by finding the cubes of 10 and 20. .
Strand Scope Source
Strategies Master IDOE
  
8.7.9
The learner will be able to use graphing to estimate solutions and check the estimates with analytic approaches. Example: Use a graphing calculator to draw the straight line x + y = 10. Use this to estimate solutions of the inequality x + y > 10 by testing points on each side of the line. .
Strand Scope Source
Strategies Master IDOE
  
8.7.10
The learner will be able to make precise calculations and check the validity of the results in the context of the problem. Example: In the first example, list the first thirteen numbers in base 2 notation. Use patterns or expanded notation to confirm your list. .
Strand Scope Source
Strategies Master IDOE
  
8.7.11
The learner will be able to decide whether a solution is reasonable in the context of the original situation. Example: In the basketball court example, does the accuracy of your answer depend on your initial measuring? .
Strand Scope Source
Evaluating Solutions Master IDOE
  
8.7.12
The learner will be able to note the method of finding the solution and show a conceptual understanding of the method by solving similar problems. Example: In the first example, use your list of base 2 numbers to add numbers in base 2. Explain exactly how your addition process works. .
Strand Scope Source
Evaluating Solutions Master IDOE
  
top