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About 22 results
  • 4.3: Modeling with Linear Functions
    https://math.libretexts.org/Courses/Coastline_College/Math_C115%3A_College_Algebra_(Tran)/04%3A_Linear_Functions/4.03%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 4.3: Modeling with Linear Functions
    https://math.libretexts.org/Courses/Angelo_State_University/Finite_Mathematics/04%3A_Linear_Polynomial_and_Rational_Functions/4.03%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 3.3: Modeling with Linear Functions
    https://math.libretexts.org/Courses/Mission_College/Math_1%3A_College_Algebra_(Carr)/03%3A_Linear_Functions/3.03%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 1.2: Modeling with Linear Functions
    https://math.libretexts.org/Courses/Mission_College/Math_1X%3A_College_Algebra_w__Support_(Sklar)/01%3A_Linear_and_Quadratic_Functions/1.02%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 1.4: Function Notation
    https://math.libretexts.org/Courses/Cosumnes_River_College/Math_370%3A_Precalculus/01%3A_Relations_and_Functions/1.04%3A_Function_Notation
    This section explains function notation, including how to interpret and evaluate functions expressed in this form. It covers the use of symbols like f(x) to denote functions, how to substitute values ...This section explains function notation, including how to interpret and evaluate functions expressed in this form. It covers the use of symbols like f(x) to denote functions, how to substitute values into functions, and how to read and write functions in different contexts. Examples are provided to illustrate these concepts, emphasizing the importance of understanding function notation for further study in Algebra.
  • 4.3: Modeling with Linear Functions
    https://math.libretexts.org/Bookshelves/Algebra/College_Algebra_1e_(OpenStax)/04%3A_Linear_Functions/4.03%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 7.2: Modeling with Linear Functions
    https://math.libretexts.org/Courses/Mt._San_Jacinto_College/Ideas_of_Mathematics/07%3A_Modeling/7.02%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 3.3: Modeling with Linear Functions
    https://math.libretexts.org/Workbench/1250_Draft_3/03%3A_Linear_Functions/3.03%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 3.3: Modeling with Linear Functions
    https://math.libretexts.org/Workbench/1250_Draft_4/03%3A_Linear_Functions/3.03%3A_Modeling_with_Linear_Functions
    We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-interc...We can use the same problem strategies that we would use for any type of function. When modeling and solving a problem, identify the variables and look for key values, including the slope and y-intercept. Draw a diagram, where appropriate. Check for reasonableness of the answer. Linear models may be built by identifying or calculating the slope and using the y-intercept. The x-intercept may be found by setting y=0, which is setting the expression mx+b equal to 0.
  • 2.1: Linear Functions
    https://math.libretexts.org/Courses/Cosumnes_River_College/Math_372%3A_College_Algebra_for_Calculus/02%3A_Linear_and_Quadratic_Functions/2.01%3A_Linear_Functions
    This section covers linear functions, including their definition, graphing, and interpretation. It explains the slope-intercept form y=mx+b, where m represents the slope and b the y-intercept, and dem...This section covers linear functions, including their definition, graphing, and interpretation. It explains the slope-intercept form y=mx+b, where m represents the slope and b the y-intercept, and demonstrates how to find and interpret these values. It also addresses real-world applications of linear functions, such as modeling and predicting trends. Examples and exercises help reinforce understanding of these key concepts.
  • 2.1: Linear Functions
    https://math.libretexts.org/Courses/Cosumnes_River_College/Math_370%3A_Precalculus/02%3A_Linear_and_Quadratic_Functions/2.01%3A_Linear_Functions
    We now begin the study of families of functions. Our first family, linear functions, are old friends as we shall soon see. Recall from Geometry that two distinct points in the plane determine a unique...We now begin the study of families of functions. Our first family, linear functions, are old friends as we shall soon see. Recall from Geometry that two distinct points in the plane determine a unique line containing those points.

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