Take learning to a Whole New Level! |
Don't give up until you reach the goal! |
To win any game you must start a single level and work your way to the goal. Then you begin a new level with a new goal.
Continue to climb until all goals are reached!
Continue to climb until all goals are reached!
Learning Goals
Geometry Goals1. I can put together and take apart shapes to help me find the area of right triangles, other triangles, special quadrilaterals and polygons. I can make a line plot to display data sets of measurements in fractions. 6.G.A.1
2. I can apply what I know about taking apart and putting together shapes to find the area in real world situations. 6.G.A.1 3. I can use unit cubes to find the volume of a right rectangular prism and I understand that the mathematical formula (V = l w h or V = b h) will give me the same result. 6.G.A.2 4. I can use the mathematical formulas V=l w h or V= b h to determine the volume of real world objects. 6.G.A.2 5. I can draw polygons in the coordinate plane when I am given the coordinates for the vertices. 6.G.A.3 6. I can use the coordinates of the vertices of a polygon on the coordinate plane to find the length of a side, joining points with the same first coordinate or the same second coordinate.6.G.A.3 7. I can apply what I have learned about polygons on coordinate planes to real world and mathematical situations. 6.G.A.3 Expressions and Equation Goals1. I can write and understand numerical expressions involving whole number exponents. 6.EE.A.
2. I can write, read and figure out expressions in which letters stand for numbers. 6.EE.A.2 3. I can write expressions using numbers and letters (with the letters standing for numbers.) 6.EE.A.2a 4. I can identify the parts of an expression using mathematical words (sum, term, product, factor, quotient, coefficient.) 6.EE.A.2b 5. I can understand that in 2(8 + 7), (8 + 7) can be thought of as two separate numbers or as 15. 6.EE.A.2b 6. I can determine the answer to expressions when given the specific value of a variable. 6.EE.A.2c 7. I can use my knowledge of the order of operations to evaluate expressions. 6.EE.A.2 8. I can use my knowledge of the order of operations to create equivalent expressions. 6.EE.A.3 9. I can identify when two expressions are equivalent. 6.EE.A.4 10, I can understand that solving an equation or inequality is like answering a question. 6.EE.B.5 11. I can use variables to represent numbers and write expressions when solving real-world problems. 6.EE.B.6 12. I can solve real-world and mathematical problems by writing and solving equations. 6.EE.B.7 13. I can write an inequality which has many solutions and represent these solutions on a number line (where x>c or x<c). 6.EE.B.8 14. I can use variables to represent two quantities in a real world problem and write an equation to express the quantities. 6.EE.C.9 15. I can use graphs and tables to show the relationship between dependent and independent variables. 6.EE.C.9 |
Statisics and Probability1. I understand that the data in questions involving statistics is varied as it relates to the question and answers.6.SP.A.1
2. I understand that a set of data collected to answer a statistical question has an overall shape, including a center and spread, when plotted on a graph. 6.SP.A.2 3. I understand that a set of numerical data has a measure of center (median and/or mean) that summarizes all of its values with a single number. 6.SP.A.3 4. I understand that in a set of numerical data, the measure of variation describes how it’s values vary with a single number. 6.SP.A.3 5. I can show numerical data on a number line. 6.SP.B.4 6. I can summarize sets of numerical data that are different. 6.SP.B.5 7. I can summarize data by stating the number of observations.6.SP.B.5a 8. I can summarize data by describing the characteristics of what is being investigated, including how it was measured. 6.SP.B.5b 9. I can summarize data by giving numerical measures of center and variability. 6.SP.B.5c 10. I can summarize data by describing the overall pattern of the data and noticing unusual deviations from the overall pattern. 6.SP.B.5c 11. I can summarize data by explaining how the distribution of the data on a graph determines its measure of center (median and/or mean). 6.SP.B.5.d Ratios and Proportions1. I can understand ratios and the language used to describe two amounts. 6.RP.A.1
2. I can understand how to find a rate when given a specific ratio. (Ex: We paid $75 for 15 hamburgers, which is a rate of $5 per hamburger.) 6.RP.A.2 3. I can solve word problems related to ratios in order to figure out the rate. 6.RP.A.3 4. I can make tables of equivalent ratios, find missing values in the tables, plot those values on a coordinate plane, and use the tables to compare ratios. 6.RP.A.3a 5. I can solve unit rate problems. (Ex: If it took 7 hours to mow 4 lawns, then at that rate, how many lawns could be mowed in 35 hours? At what rate were the lawns being mowed?) 6.RP.A.3b 6. I can find a percent of a quantity as a rate per 100. (Ex: 30% of a quantity means 30/100 times the quantity). 6.RP.A.3c 7. I can solve problems involving finding the whole if I am given a part and the percent. 6.RP.A.3c 8. I can use what I know about ratios to convert units of measurement. 6.RP.A.3d |
The Number System Goals1. I can divide two fractions. 6.NS.A.1
2. I can solve word problems involving the division of fractions by fractions. 6.NS.A.1 3. I can divide multi-digit numbers. 6.NS.B.2 4. I can add, subtract, multiply and divide multi-digit numbers involving decimals. 6.NS.B.3 5. I can find the greatest common factor of two whole numbers less than or equal to 100. 6.NS.B.4 6. I can find the least common multiple of two whole numbers less than or equal to 12. 6.NS.B.4 7. I can use the distributive property to show the sum of two whole numbers 1-100 in different ways. (Ex: show 36 + 8 as 4(9+2)). 6.NS.B.4 8. I can understand that positive and negative numbers are used to describe amounts having opposite values. 6.NS.C.5 9. I can use positive and negative numbers to show amounts in real-world situations and explain what the number 0 means in those situations. 6.NS.C.5 10. I can understand that a rational number is a point on a number line. 6.NS.C.6 11. I can extend number line diagrams to show positive and negative numbers on the line and in the plane. 6.NS.C.6 12. I can recognize opposite signs of numbers as indicating places on opposite sides of 0 on the number line.) 6.NS.C.6a 13. I can understand signs of numbers in ordered pairs as indicating locations in quadrants of the coordinate plane. (Ex: when two ordered pairs differ only by signs, the locations appear to be reflections of each other on the coordinate plane.) 6.NS.C.6b 14. I can place integers and other numbers on a number line diagram. 6.NS.C.6c 15. I can place ordered pairs on a coordinate plane. 6.NS.C.6c 16. I can order positive and negative numbers. 6.NS.C.7 17. I can understand absolute value of rational numbers. 6.NS.C.7 18. I can understand the distance between two numbers (positive or negative) on a number line. 6.NS.C.7a 19. I can write, understand and explain what rational numbers mean in real-world situations. (Ex: -3 °C > -7°C to show that -3 °C is warmer than -7°C) 6.NS.C.7b 20. I can understand the absolute value as the number’s distance from 0 on the number line. 6.NS.C.7c 21. I can understand absolute values as they apply to real-world situations. (Ex: for an account balance of -30 dollars, write (-30) =30 to describe the size of the debt in dollars.) 6.NC.C.7c 22. I can tell the difference between comparing absolute values and ordering positive and negative numbers. 6.NS.C.7d 23. I can graph in all four quadrants of the coordinate plane to help me solve real-world and mathematical problems. 6.NS.C.8 24. I can determine the distance between points in the same first coordinate or the same second coordinate. 6.NS.C.8 |