Chapter 1 Linear Functions Section 1.2 Linear Functions and Applications.
Modules 5 and 6: Linear Functions, Part I
Transcript of Modules 5 and 6: Linear Functions, Part I
Using the x and y-intercepts
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Write the equation of each line in standard form.
Explain 1:
Example 1:
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Modules 5 and 6: Linear Functions in the Real World Context
š“š£ššššš š šš”š šš š¶āšššš =š š„2 ā š š„1
š„2 ā š„1
Another way to write it:
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Example 4: Determine whether each function can be described by a linear function or not. If it is a linear function, then write the equation.
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Determine whether each function can be described by a linear function or not. If it is a linear function, then write the equation.
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Compare the initial value, the final value, the range, and the average range of change for each of the linear functions f(x) and g(x).
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Compare the initial value, the final value, the range, and the average range of change for each of the linear functions f(x) and g(x).
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Father of all Linear Functionsš š = š
Father of all Absolute Value functions
š š = š
Father of all Parabolasš š = šš
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Transformation Rule (h and k are the parameters)
Applying translations to a function DO NOT change the SHAPE of the function, only its LOCATION .
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x f(x)
A -1 -1
B 0 0
C 1 1
x g(x)
Aā -1 1
Bā 0 2
Cā 1 3
2. Plot the following points on the coordinate plane.
Do they lie on the graph of f(x) or g(x)?
1. Using the concepts of slope and an y-intercept, find the equations of f(x) (green line) and g(x) (red line).
f(x) = _______ g(x) = __________
4. How can you obtain the points Aā, Bā, and Cā from A, B, and C?
3. Plot the following points on the coordinate plane. Do they lie on the graph of f(x) or g(x)?
5. Find h =_____ and k = ______.
6. Write the transformation rule: g(x) = _______________.
Explain 1:
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x f(x)
A -1 -1
B 0 0
C 1 1
x g(x)
Aā -3 -1
Bā -2 0
Cā -1 1
2. Plot the following points on the coordinate plane.
Do they lie on the graph of f(x) or g(x)?
1. Using the concepts of slope and an y-intercept, find the equations of f(x) (green line) and g(x) (red line).
f(x) = _______ g(x) = __________
4. How can you obtain the points Aā, Bā, and Cā from A, B, and C?
3. Plot the following points on the coordinate plane. Do they lie on the graph of f(x) or g(x)?
5. Find h =_____ and k = ______.
6. Write the transformation rule: g(x) = _______________.
Conclusion: Could a vertical translation f(x)+k be equivalent to the horizontal translation f(x-h) of the same linear function?
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1. Find the coordinates of the vertices of the functions f(x) (green) and g(x) (red).2. Compare the x and y coordinates of the vertices. Find h and k.3. Describe the transformation(s).4. Write the transformation rule.
h = ______ k = _______
f: V (__,__) g: Vā(__,__)
Transformation: ____________________________________________
Rule: _________________
h = ______ k = _______
f: V (__,__) g: Vā(__,__)
Transformation: ____________________________________________
Rule: _________________
h = ______ k = _______
f: V (__,__) g: Vā(__,__)
Transformation(s): ____________________________________________
Rule: _________________
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1. Find the coordinates of the vertices of the functions f(x) (green) and g(x) (red).2. Compare the x and y coordinates of the vertices. Find h and k.3. Describe the transformation(s).4. Write the transformation rule.
h = ______ k = _______
f: V (__,__) g: Vā(__,__)
Transformation: ____________________________________________
Rule: _________________
h = ______ k = _______
f: V (__,__) g: Vā(__,__)
Transformation: ____________________________________________
Rule: _________________
h = ______ k = _______
f: V (__,__) g: Vā(__,__)
Transformation(s): ____________________________________________
Rule: _________________
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Compare the pair of functions given. Explain what transformations were done to f(x) to
obtain g(x). Determine h and k and write the rule g(x) = f(x-h) + k for each.
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h = ______ k = _______
Transformation(s):________________ _______________________________
Rule: _________________
h = ______ k = _______
Rule: _________________
Transformation(s):________________ _______________________________
h = ______ k = _______
Transformation(s):________________ _______________________________
Rule: _________________
h = ______ k = _______
Rule: _________________
Transformation(s):________________ _______________________________
h = ______ k = _______
Transformation(s):________________ _______________________________
Rule: _________________
h = ______ k = _______
Rule: _________________
Transformation(s):________________ _______________________________