Use the following Media4Math resources with this Illustrative Math lesson.
Thumbnail Image | Title | Body | Curriculum Topic |
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Closed Captioned Video: Slope Formula: Negative Slope, Coordinates in Quadrants III and IV | Closed Captioned Video: Slope Formula: Negative Slope, Coordinates in Quadrants III and IVTopicSlope DescriptionExplains calculating a negative slope for points in Quadrants III and IV. Example points (7, -5) and (-5, -1) yield a slope of -1/3. Key topics include applying the slope formula and simplifying results. |
Slope | |
Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant I | Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant ITopicSlope DescriptionThis video explains the slope formula and applies it to find the positive slope of a line in Quadrant I. Key concepts include rise over run and calculating differences in coordinates. The example uses points (2, 3) and (6, 7) with the slope calculated as 1. Vocabulary includes rise, run, numerator, and denominator. |
Slope | |
Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant II | Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant IITopicSlope DescriptionThis tutorial focuses on a positive slope in Quadrant II. Key topics include calculating slope as rise over run and using coordinate differences. It provides an example with points (-5, 4) and (-3, 8) resulting in a slope of 2. Vocabulary includes numerator, denominator, and difference. |
Slope | |
Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant III | Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant IIITopicSlope DescriptionShows how to calculate a positive slope in Quadrant III using the slope formula. Example uses points (-3, -8) and (-2, -2), with a slope of 6. Concepts include rise over run and simplifying fractions. |
Slope | |
Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant IV | Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrant IVTopicSlope DescriptionExplains finding a positive slope in Quadrant IV. Demonstrates using points (2, -5) and (4, -1) to calculate a slope of 2. Vocabulary includes rise over run, numerator, and denominator. |
Slope | |
Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrants I and II | Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrants I and IITopicSlope DescriptionCovers a positive slope with points spanning Quadrants I and II. Example uses (-3, 3) and (3, 6), yielding a slope of 1/2. Discusses rise over run, numerator, and denominator. |
Slope | |
Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrants III and IV | Closed Captioned Video: Slope Formula: Positive Slope, Coordinates in Quadrants III and IVTopicSlope DescriptionThis video demonstrates finding a positive slope with points in Quadrants III and IV. Using points (-5, -9) and (3, -5), it calculates a slope of 1/2. Concepts covered include rise over run and simplifying coordinate differences. |
Slope | |
Closed Captioned Video: Slope of a Line Connecting Two Points | Closed Captioned Video: Slope of a Line Connecting Two Points
In this TI Nspire tutorial, the Graph window is to find the slope of two points connected by a line. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. . |
Slope | |
Collections in a Box: Parallel and Perpendicular Lines | This cheat sheet gathers together the resources on the topic of parallel and perpendicular lines. See the descriptions and links below. Each link takes you to a collection of resources around that topic. The middle column indicates the number of resources available and the third column takes you to page on Media4Math where those resources can be found. Subscribers can download the PDF version of this cheat sheet. Click Preview to see the HTML version. |
Geometric Constructions with Points and Lines, Parallel Lines and Perpendicular Lines | |
Collections in a Box: Parallel and Perpendicular Lines | This cheat sheet gathers together the resources on the topic of parallel and perpendicular lines. See the descriptions and links below. Each link takes you to a collection of resources around that topic. The middle column indicates the number of resources available and the third column takes you to page on Media4Math where those resources can be found. Subscribers can download the PDF version of this cheat sheet. Click Preview to see the HTML version. |
Geometric Constructions with Points and Lines, Parallel Lines and Perpendicular Lines | |
Collections in a Box: Parallel and Perpendicular Lines | This cheat sheet gathers together the resources on the topic of parallel and perpendicular lines. See the descriptions and links below. Each link takes you to a collection of resources around that topic. The middle column indicates the number of resources available and the third column takes you to page on Media4Math where those resources can be found. Subscribers can download the PDF version of this cheat sheet. Click Preview to see the HTML version. |
Geometric Constructions with Points and Lines, Parallel Lines and Perpendicular Lines | |
Collections in a Box: Parallel and Perpendicular Lines | This cheat sheet gathers together the resources on the topic of parallel and perpendicular lines. See the descriptions and links below. Each link takes you to a collection of resources around that topic. The middle column indicates the number of resources available and the third column takes you to page on Media4Math where those resources can be found. Subscribers can download the PDF version of this cheat sheet. Click Preview to see the HTML version. |
Geometric Constructions with Points and Lines, Parallel Lines and Perpendicular Lines | |
Collections in a Box: Parallel and Perpendicular Lines | This cheat sheet gathers together the resources on the topic of parallel and perpendicular lines. See the descriptions and links below. Each link takes you to a collection of resources around that topic. The middle column indicates the number of resources available and the third column takes you to page on Media4Math where those resources can be found. Subscribers can download the PDF version of this cheat sheet. Click Preview to see the HTML version. |
Geometric Constructions with Points and Lines, Parallel Lines and Perpendicular Lines | |
Definition--Direct Variation | Direct Variation
TopicLinear Functions DefinitionDirect variation describes a linear relationship between two variables where one variable is a constant multiple of the other, expressed as y = kx, where k is the constant of variation. DescriptionDirect variation is a fundamental concept in linear functions, illustrating how one variable changes proportionally with another. The constant of variation, š k, represents the rate of change. In real-world scenarios, direct variation can model relationships such as speed and distance, where distance traveled varies directly with time at a constant speed. Understanding this concept is crucial in fields like physics and engineering. |
Applications of Linear Functions | |
Definition--Slope Concepts--Delta x | Delta xTopicSlope DefinitionDelta x is the change in the x-coordinate in a linear relationship. DescriptionThe term Delta x is fundamental to understanding slope as it represents the horizontal change in a lineās position. In real-world applications, Delta x can represent the distance traveled over time in physics and engineering contexts. |
Slope | |
Definition--Slope Concepts--Delta y | Delta yTopicSlope DefinitionDelta y is the change in the y-coordinate in a linear relationship. DescriptionThe term Delta y signifies the vertical change, essential for calculating slope used in graphing and data interpretation. In practical scenarios, Delta y can illustrate changes in temperature over time or the rise in elevation in geography. |
Slope | |
Definition--Slope Concepts--Grade | GradeTopicSlope DefinitionGrade is a ratio indicating the steepness of a slope. DescriptionThe term Grade commonly refers to the angle of elevation or slope expressed as a percentage. In engineering, grades are crucial for designing roads and railways, ensuring safety and efficiency. |
Slope | |
Definition--Slope Concepts--Gradient | GradientTopicSlope DefinitionGradient represents the rate of change of a quantity. DescriptionThe Gradient measures how steep a line is, calculated by the ratio of the rise to run. This concept is significant in fields like physics and economics where gradients can represent relationships between variables. |
Slope | |
Definition--Slope Concepts--Negative Slope | Negative SlopeTopicSlope DefinitionNegative Slope indicates a decrease in value as x increases. DescriptionThe Negative Slope signifies that as one variable increases, the other decreases, often used in economics to depict inverse relationships. This term finds relevance in real-world scenarios like demand curves which slope downwards. |
Slope | |
Definition--Slope Concepts--Pitch | PitchTopicSlope DefinitionPitch refers to the steepness of a slope in a real-world context. DescriptionPitch is commonly applied in construction and design fields to denote the angle of roofs and ramps. This is essential in architecture, especially when dealing with drainage and material use. |
Slope | |
Definition--Slope Concepts--Point-Slope Form | Point-Slope FormTopicSlope DefinitionPoint-Slope Form is a way to express linear equations given the slope and a point on the line. DescriptionThe Point-Slope Form is crucial in algebra for identifying linear relationships given the slope and a point on the line. Understanding this concept aids in graphing lines efficiently and is foundational in higher mathematics. For a complete collection of terms related to Slope click on this link: Slope Collection. |
Point-Slope Form | |
Definition--Slope Concepts--Positive Slope | Positive SlopeTopicSlope DefinitionPositive Slope indicates an increase in value as x increases. DescriptionThe Positive Slope indicates that as x grows, y also rises, signifying direct relationships in data analysis. This principle enables predictions in various analytics and trends. For a complete collection of terms related to Slope click on this link: Slope Collection. |
Slope | |
Definition--Slope Concepts--Slope | SlopeTopicSlope DefinitionSlope measures the steepness of a line. DescriptionSlope is a fundamental concept in mathematics, expressing the ratio of vertical rise to horizontal run. This is vital for understanding linear functions, essential in fields such as physics, economics, and data science. For a complete collection of terms related to Slope click on this link: Slope Collection. |
Slope | |
Definition--Slope Concepts--Slope Formula | Slope FormulaTopicSlope DefinitionThe Slope Formula calculates the rate of change. DescriptionThe Slope Formula is typically represented as This formula is a cornerstone in algebra, enabling students to analyze linear equations effectively. |
Slope | |
Definition--Slope Concepts--Slope-Intercept Form | Slope-Intercept FormTopicSlope DefinitionThe slope-intercept form is an equation of a straight line represented as y = m x + b, where m is the slope and b is the y-intercept. DescriptionThe slope-intercept form is a fundamental concept in algebra, providing a straightforward way to graph linear equations. It is widely used in various fields, from economics to physics, to model linear relationships and predict outcomes based on given data. Understanding this form is crucial for students as it lays the foundation for more complex mathematical concepts and real-world applications. |
Slope-Intercept Form | |
Definition--Slope Concepts--Slopes of Parallel Lines | Slopes of Parallel LinesTopicSlope DefinitionParallel lines are lines in the same plane that never meet; they have equal slopes. DescriptionUnderstanding the slopes of parallel lines is essential in geometry and algebra, as it helps in identifying and proving parallelism in shapes and graphs. This concept is applied in various fields, including architecture and engineering, where maintaining parallelism is crucial for structural integrity and design. In mathematics education, this concept aids in developing logical reasoning and problem-solving skills. |
Slope | |
Definition--Slope Concepts--Slopes of Perpendicular Lines | Slopes of Perpendicular LinesTopicSlope DefinitionPerpendicular lines intersect at a right angle, and their slopes are negative reciprocals of each other. DescriptionThe concept of perpendicular slopes is vital in geometry, as it helps in determining the orthogonality of lines. This principle is used in various applications, such as designing perpendicular intersections in roadways and creating right-angle joints in construction. In education, it enhances students' understanding of geometric properties and their ability to solve related problems. |
Slope | |
Definition--Slope Concepts--Steepness | SteepnessTopicSlope DefinitionSteepness is a measure of how steep a line is, typically calculated as the absolute value of the slope. DescriptionSteepness is a key concept in understanding the inclination of lines and surfaces. It is commonly used in fields like geology and civil engineering to assess the gradient of terrains and structures. In math education, learning about steepness helps students grasp the concept of slope and its practical implications, enhancing their analytical skills and understanding of real-world phenomena. |
Slope | |
Definition--Slope Concepts--The Rise Over the Run | The Rise Over the RunTopicSlope DefinitionThe rise over the run describes the change in y over the change in x in a linear relationship. DescriptionThe concept of "rise over run" is foundational in understanding how to calculate the slope of a line. It is used in various disciplines, such as physics and economics, to model relationships and predict trends. In education, mastering this concept is crucial for students as it forms the basis for graphing linear equations and understanding the behavior of lines in a coordinate plane. |
Slope | |
Definition--Slope Concepts--Undefined Slope | Undefined SlopeTopicSlope DefinitionUndefined slope occurs when a vertical line is present, meaning there is no change in x. DescriptionAn undefined slope is a critical concept in mathematics, particularly in graphing. It indicates a vertical line where the change in x is zero, making the slope calculation impossible. This concept is important in various fields, such as computer graphics and data analysis, where vertical lines can represent boundaries or limits. Understanding undefined slopes helps students in identifying and interpreting vertical lines in graphs. |
Slope | |
Definition--Slope Concepts--Zero Slope | Zero SlopeTopicSlope DefinitionZero slope describes a horizontal line where there is no change in y as x changes. DescriptionA zero slope is a key concept in algebra and geometry, representing a horizontal line. It is used in various applications, such as designing flat surfaces and analyzing constant relationships in data. In education, understanding zero slopes helps students in graphing and interpreting horizontal lines, enhancing their ability to analyze linear relationships. For a complete collection of terms related to Slope click on this link: Slope Collection. |
Slope | |
Desmos Activity: Slope As Rate of Change | Desmos Activity: Slope As Rate of Change Use this activity to explore slope as a rate of change. In this Desmos activity, the slope of the line is the rate (cost per pound) for purchasing fruit. Students manipulate the slider for m to see the impact on the cost. |
Slope and Ratios and Rates | |
Desmos Activity: Slope As Rise Over Run | Desmos Activity: Slope As Rise Over Run This Desmos activity allows students to explore slope as the ratio of the rise over the run. Click Preview to launch the activity. In the activity students click on the points to create a line segment connecting two points. Use the background grid to determine the rise and the run and calculate the slope. |
Slope | |
Desmos Activity: Slope As Rise Over Run 2 | Desmos Activity: Slope As Rise Over Run 2 In this activity, students input different values for the coordinates to create a new line. They can then measure the rise and run to calculate the slope. |
Slope | |
Formulas--Slope Formula | Formulas | Slope Formula
The formula for the Slope Formula. This is part of a collection of math formulas. āPRESS PREVIEW TO SEE THE IMAGEā To see the complete collection of formulas, click on this link.The following section includes background information on slope. This background also includes video resources and accompanying transcripts. What Is Slope?Watch this video to learn about the slope formula. (The transcript is also included.) |
Slope | |
Instructional Resource--Strategy Pack--The Slope of a Line | Instructional Resource | Strategy Pack | The Slope of a Line
Learn different strategies for finding the slope of a line. The Strategy Packs provide alternate ways of solving the same problem, giving your students different approaches to the same problem. The goal of the Strategy Packs is to encourage your students to think strategically when solving math problems. āPRESS PREVIEW TO LAUNCH THE PRESENTATIONā To see the complete collection of Instructional Resources, click on this link.Note: The download is a PPT file. |
Slope | |
INSTRUCTIONAL RESOURCE: Desmos Tutorial: Linear Functions in Point-Slope Form | INSTRUCTIONAL RESOURCE: Desmos Tutorial: Linear Functions in Point-Slope Form
In this Slide Show, use the Desmos graphing calculator to explore the point-slope form. To see the complete collection of Desmos Resources click on this link. Note: The download is a PPT file. This is part of a collection of Desmos tutorials on a variety of math topics. To see the complete collection of these resources, click on this link.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions, Graphs of Linear Functions and Point-Slope Form | |
INSTRUCTIONAL RESOURCE: Math Examples 12 | INSTRUCTIONAL RESOURCE: Math Examples--Equations of Parallel and Perpendicular Lines
The complete set of 32 examples that make up this set of tutorials. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions and Graphs of Linear Functions | |
INSTRUCTIONAL RESOURCE: Math Examples 12 | INSTRUCTIONAL RESOURCE: Math Examples--Equations of Parallel and Perpendicular Lines
The complete set of 32 examples that make up this set of tutorials. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions and Graphs of Linear Functions | |
INSTRUCTIONAL RESOURCE: Math Examples 19 | INSTRUCTIONAL RESOURCE: Math Examples--Graphing Linear Functions in Slope-Intercept Form
The complete set of 13 examples that make up this set of tutorials. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions and Graphs of Linear Functions | |
INSTRUCTIONAL RESOURCE: Math Examples 25 | INSTRUCTIONAL RESOURCE: Math Examples--Line From Two Points
The complete set of 29 examples that make up this set of tutorials. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions and Graphs of Linear Functions | |
INSTRUCTIONAL RESOURCE: Math Examples 26 | INSTRUCTIONAL RESOURCE: Math Examples--Linear Equations in Standard Form
This PowerPoint includes the 22 Tutorials on the topic of converting Linear Equations in Standard Form to Slope-Intercept Form. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions and Graphs of Linear Functions | |
INSTRUCTIONAL RESOURCE: Math Examples 30 | INSTRUCTIONAL RESOURCE: Math Examples--Midpoint Formula
The complete set of 20 examples that make up this set of tutorials. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Midpoint Formula | |
INSTRUCTIONAL RESOURCE: Math Examples 36 | INSTRUCTIONAL RESOURCE: Math Examples--Point-Slope Form
The complete set of 8 examples that make up this set of tutorials. This is part of a collection of math examples for a variety of math topics. To see the complete collection of these resources, click on this link. Note: The download is a PPT file.Library of Instructional ResourcesTo see the complete library of Instructional Resources , click on this link. |
Applications of Linear Functions and Graphs of Linear Functions | |
INSTRUCTIONAL RESOURCE: Nspire App Tutorial: Point-Slope Form | In this Slide Show, create a template for determining the equation of a line given a point and the slope of the line. This presentation requires the use of the TI-Nspire iPad App. Note: the download is a PPT. |
Applications of Linear Functions, Graphs of Linear Functions and Point-Slope Form | |
INSTRUCTIONAL RESOURCE: Nspire App Tutorial: Slope Formula 1 | In this Slide Show, the Graph Window is used to calculate the slope of the line between two points. |
Slope | |
INSTRUCTIONAL RESOURCE: Nspire App Tutorial: Slope Formula 2 | In this Slide Show, the Graph Window is used to construct two points and a linked formula to calculate the slope. This presentation requires the use of the TI-Nspire iPad App. Note: the download is a PPT. |
Slope | |
INSTRUCTIONAL RESOURCE: Nspire App Tutorial: Slope Formula 3 | In this Slide Show, a Slope Formula template is created using the Spreadsheet window. This presentation requires the use of the TI-Nspire iPad App. Note: the download is a PPT. |
Slope | |
INSTRUCTIONAL RESOURCE: Tutorial: The Point-Slope Form | <h1>INSTRUCTIONAL RESOURCE: Tutorial: The Point-Slope Form</h1><p>In this Slide Show, learn about thepoint-slope form. </p><h3> This is part of a collection of tutorials on a variety of math topics. To see the complete collection of these resources, <a href="https://www.media4math.com/instructional-resources?field_la_display_titā¦ on this link.</u></strong></a> </h3> <h3> Note: The download is a PPT file. </h3>< <h2> Library of Instructional Resources </h3> |
Applications of Linear Functions, Graphs of Linear Functions and Point-Slope Form | |
INSTRUCTIONAL RESOURCE: TI-Nspire CX Activity: The Slope Formula | In this Slide Show, learn how to use the TI-Nspire CX to calculate slope. Note: The download is a PPT file. |
Slope |