Using Transformations to Sketch a Graph 
Using Transformations to Sketch a Graph
by integralCALC / Krista King
Video Lecture 21 of 50
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Views: 1,228
Date Added: January 13, 2015

Lecture Description

In this video, Krista King from integralCALC Academy shows how to use transformations to sketch a graph, one piece at a time.

Course Index

  1. Vertical Line Test Overview
  2. Domain and Range
  3. Finding Values and Domain and Range from a Graph
  4. Equation Modeling
  5. Modeling the Equation of a Piecewise Defined Function from its Graph
  6. Sketching a Graph from a Story Problem
  7. Determining if a Function is Even, Odd or Neither
  8. How to Classify Functions
  9. Equation of the Line in Slope-intercept Form
  10. Equation of a Line in Point-slope Form
  11. Least Squares Line
  12. Finding the Inverse of a Function
  13. Sketch the Graph of a Parabola
  14. Finding the Center and Radius of the Circle
  15. Sketch the Graph of a Circle
  16. Combinations of Functions and their Domains
  17. Composite Functions
  18. Composite Functions and their Domains
  19. Describing Transformations Algebraically
  20. Graphing Transformations
  21. Using Transformations to Sketch a Graph
  22. Determine Whether a Function is 1 to 1
  23. Find the Inverse of a Function and Sketch its Graph
  24. Finding the Linear Function Given Two Points on its Inverse
  25. Use Laws of Logarithms to Simplify a Logarithmic Function
  26. Use the Quadratic Formula to Find Roots of the Function
  27. Completing the Square of a Quadratic Function
  28. Polynomial Long Division for Rational Functions
  29. Hyperbolic Identities
  30. Limits: Substitution Method
  31. Limits: Factoring Method
  32. Limits: Conjugate Method
  33. Use Limit Laws to Evaluate Limits of Combination Functions
  34. Limits: Crazy Graphs
  35. Limits at Infinity
  36. Infinite Limits
  37. Limits: Trigonometric (Example 2)
  38. Limits: One-Sided
  39. How to Prove that the Limit Does Not Exist
  40. Precise Definition of the Limit
  41. Finding Delta from a Graph and the Epsilon-delta Definition of the Limit
  42. Squeeze Theorem
  43. Limit of an Inequality with Squeeze Theorem
  44. Continuity
  45. Removable Discontinuity
  46. Finding the Value that Makes the Function Continuous
  47. Intermediate Value Theorem Overview
  48. Intermediate Value Theorem to Prove a Root in an Interval
  49. Prove the Equation Has at Least One Real Root
  50. How to Calculate the Difference Quotient
  51. Power Rule
  52. Derivatives of Linear Combinations
  53. Product Rule
  54. Product Rule - 3+ Functions
  55. Quotient Rule
  56. Reciprocal Rule
  57. Chain Rule
  58. Chain Rule for Derivatives with Product Rule
  59. Chain Rule for Derivatives with Quotient Rule
  60. Chain Rule for Derivatives with Trig Functions
  61. Trigonometric Derivatives: Overview
  62. Trigonometric Derivatives (Example 1)
  63. Derivatives of Inverse Trig Functions: arcsin
  64. Derivatives of Inverse Trig Functions: arccot
  65. Derivatives of Hyperbolic Functions
  66. Derivative of an Inverse Hyperbolic Function
  67. Derivatives of Natural Logs (ln)
  68. Use Laws of Logarithms to Find the Derivative
  69. Derivatives of Exponentials (e^x)
  70. Equation of the Tangent Line
  71. Differentiability and Vertical Tangent Lines
  72. Equation of the Normal Line at a Point
  73. Average Rate of Change
  74. Implicit Differentiation
  75. Use Implicit Differentiation to Find the Equation of the Tangent Line at a Point
  76. Use Implicit Differentiation to Find the Second Derivative of y (y'')
  77. Half Life
  78. Continuously Compounded Interest
  79. Sales Decline
  80. Linear Approximation in One Variable
  81. Linearization of a Function at a Point
  82. Critical Points
  83. Increasing and Decreasing (Example 1)
  84. Concavity and Inflection Points
  85. First Derivative Test
  86. Second Derivative Test: One Variable
  87. Vertical Asymptotes: Overview
  88. Horizontal Asymptotes: Basic Overview
  89. Horizontal Asymptotes: Further Detail
  90. Slant Asymptotes
  91. Sketching Graphs (Example 1)
  92. Maxima and Minima on a Closed Range
  93. Dimensions that Minimize the Surface Area of a Cylinder
  94. Largest Area of a Rectangle Inscribed in a Semicircle
  95. Dimensions that Maximize the Area of the Rectangle
  96. Largest Possible Volume of a Cylinder Inscribed in a Sphere
  97. Maximum Volume of a Cone Shaped Cup
  98. Dimensions of the Rectangle with Largest Area Inscribed in an Equilateral Triangle
  99. Applied Optimization: Two Real Numbers with Difference 20 and Minimum Possible Product
  100. Applied Optimization: Area and Margins of a Page
  101. Related Rates: Radius of a Balloon and Changing Price
  102. Related Rates: Water Level in a Tank
  103. Related Rates: Ladder Sliding Down a Wall
  104. Related Rates: Distance Between Observer and Airplane
  105. Mean Value Theorem
  106. Rolle's Theorem
  107. Newton's Method
  108. L'Hopital's Rule
  109. Position Function
  110. All About a Particle's Position Function
  111. Vertical Motion (Differentiation)
  112. Marginal Cost, Revenue and Profit

Course Description

In this course, Krista King from the integralCALC Academy covers a range of topics in Calculus I, including Precalculus, Limits & Continuity, Derivatives and Applications of Derivatives.

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