Title  Description  Thumbnail Image 

WORKSHEET: Multiple Representations of Exponential Functions: Example 01 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a = 1, b = 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 02 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a > 1, b = 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 03 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a = 1, b > 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 04 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a > 1, b > 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 05 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a = 1, b = 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 06 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a < 1, b = 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 07 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a = 1, b < 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 08 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a < 1, b < 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 09 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: 1 < a < 0, b = 1. 

WORKSHEET: Multiple Representations of Exponential Functions: Example 10 
Analyzing an exponential function of base 2 of the form y = a*2^(bx) with these characteristics: a = 1, 1 < b < 0. 

WORKSHEET: Multiple Representations of Linear Functions: Example 01 
WorksheetMultiple Representations of Linear Functions: Example 1. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope > 1, positive yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 02 
WorksheetMultiple Representations of Linear Functions: Example 2. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope > 1, negative yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 03 
WorksheetMultiple Representations of Linear Functions: Example 3. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope > 1, yintercept of zero. 

WORKSHEET: Multiple Representations of Linear Functions: Example 04 
WorksheetMultiple Representations of Linear Functions: Example 4. Analyzing a linear function in slopeintercept form with these characteristics: Negative slope < 1, positive yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 05 
WorksheetMultiple Representations of Linear Functions: Example 5. Analyzing a linear function in slopeintercept form with these characteristics: Negative slope < 1, negative yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 06 
WorksheetMultiple Representations of Linear Functions: Example 6. Analyzing a linear function in slopeintercept form with these characteristics: Negative slope < 1, yintercept of zero. 

WORKSHEET: Multiple Representations of Linear Functions: Example 07 
WorksheetMultiple Representations of Linear Functions: Example 7. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope = 1, positive yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 08 
WorksheetMultiple Representations of Linear Functions: Example 8. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope = 1, negative yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 09 
WorksheetMultiple Representations of Linear Functions: Example 9. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope = 1, yintercept of zero. 

WORKSHEET: Multiple Representations of Linear Functions: Example 10 
WorksheetMultiple Representations of Linear Functions: Example 10. Analyzing a linear function in slopeintercept form with these characteristics: Negative slope = 1, positive yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 11 
WorksheetMultiple Representations of Linear Functions: Example 11. Analyzing a linear function in slopeintercept form with these characteristics: Negative slope = 1, negative yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 12 
WorksheetMultiple Representations of Linear Functions: Example 12. Analyzing a linear function in slopeintercept form with these characteristics: Negative slope = 1, yintercept of zero. 

WORKSHEET: Multiple Representations of Linear Functions: Example 13 
WorksheetMultiple Representations of Linear Functions: Example 13. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope, 0 < m < 1, positive yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 14 
WorksheetMultiple Representations of Linear Functions: Example 14. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope, 0 < m < 1, negative yintercept. 

WORKSHEET: Multiple Representations of Linear Functions: Example 15 
WorksheetMultiple Representations of Linear Functions: Example 15. Analyzing a linear function in slopeintercept form with these characteristics: Positive slope, 0 < m < 1, yintercept of zero. 