Evidence of Understanding

• describe an input in terms of its corresponding output
  • approximate and justify the input of an exponential function given the output
    • Example: given 59 = 2^x, students recognize 2^xas a continuous function and that 59 is between 32 and 64 and therefore x is a value between 5 and 6, closer to 6
  • describe an exponential function in terms of the output, f(x), and its base
    • Example: f(x) = 2^x can be described as “base 2 is f(x) when raised to the exponent x” or “f(x) is equivalent to the base 2 raised to exponent x”
  • use the outputs of an exponential function to graph its inverse function
    • create and analyze a table of values for the inverse function
    • describe the intercepts and end behavior of the inverse function
      
• create equivalent representations for exponential and logarithmic functions
  • analyze relationships between exponential and logarithmic equations using graphs or tables
    • Example: compare Y= 2^x, log₂Y= X, and log₂X = Y using features from their graphs
    • recognize when equations model the same function, inverse functions, or neither
  • create a table or graph from a simple logarithmic function rule (including natural logarithm)
    • determine the output of a simple logarithm without a calculator (Example: log₃27 is 3 or log₂16 is 4 or log₄18 is a number slightly more than 2)
  • create a simple exponential or logarithmic function rule that best models a given graph or table
  • justify connections between features of the table, graph, and function rule of a given logarithm
    
• illustrate exponentials and logarithms are inverse functions
  • prove the composition of an exponential function and its inverse log function are commutative
  • prove an exponential function and its inverse log function map onto one another over y = x
    • describe how an exponential function is the reflection of its inverse log function
  • algebraically solve for the inverse function rule for an exponential or log function

Develop conceptual understanding:

inverse, logarithm, natural logarithm

Supporting terms to communicate:

function, input, output, domain, range, exponential, base, e, natural base, intercept, end behavior, asymptote, inverse, commutative, reflect