Exponentials & Logs (DP IB Analysis & Approaches (AA))

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  • What is a logarithm?

    A logarithm is the inverse of an exponent.

  • State the logarithm equation in terms of a, b, and x that is equivalent to a to the power of x equals b.

    If a to the power of x equals b, then the equivalent logarithm equation is log subscript a b equals x.

    This is valid so long as a greater than 0, b greater than 0 and a not equal to 1.

    This logarithm equation is given in the exam formula booklet.

  • What is ln x the notation for?

    ln x is the notation for the natural logarithm of x.

    This is equivalent to log subscript straight e x, where straight e is the mathematical constant approximately equal to 2.718.

  • True or False?

    log x is sometimes used as an abbreviation for log subscript 10 x.

    True.

    log x is sometimes used as an abbreviation for log subscript 10 x.

    log x will usually mean log subscript 10 x, unless otherwise specified.

  • Define the term base in the context of logarithms.

    In the context of logarithms, the base is the number that is being raised to a power in the equivalent exponential equation.

    E.g. in log subscript a b the base is a.

  • True or False?

    The equation 2 to the power of x equals 10 can be solved using logarithms.

    True.

    The equation 2 to the power of x equals 10 can be solved using logarithms, specifically by finding the value of the solution x equals log subscript 2 10.

  • What is the logarithm law for log subscript a x y?

    log subscript a x y equals log subscript a x plus log subscript a y

    If you take the log of the product of two numbers, it is the same as the sum of the log of each number.

    The logs of both individual numbers must have the same base.

    This formula is given in the exam formula booklet.

  • What is the logarithm law for log subscript a x over y?

    log subscript a x over y equals log subscript a x minus log subscript a y

    If you take the log of the division of two numbers, it is the same as the difference of the log of each number.

    The logs of both individual numbers must have the same base.

    This formula is given in the exam formula booklet.

  • What is the logarithm law for log subscript a x to the power of m?

    log subscript a x to the power of m equals m log subscript a x

    If you take the log of a number raised to the power of another number, it is the same as the product of the power and the log of the number.

    This formula is given in the exam formula booklet.

  • What is the result of log subscript a 1, given a greater than 0 comma space a not equal to 1?

    log subscript a 1 equals 0, given a greater than 0 comma space a not equal to 1.

    The log of 1, for any positive base that is not equal to 1, is always 0.

    This is equivalent to a to the power of 0 equals 1.

    This result is not in your exam formula booklet.

  • True or False?

    log subscript a a equals 0.

    False.

    log subscript a a equals 1.

    The log of a number, where the base of the log is the same as the number, is always equal to 1.

    This result is not in your exam formula booklet.

  • What is the result of log subscript a open parentheses a to the power of x close parentheses?

    log subscript a open parentheses a to the power of x close parentheses equals x

    This is the result of the logarithm law log subscript a x to the power of m equals m log subscript a x and the fact that log subscript a a equals 1.

    This also illustrates the fact that logarithms and exponents (with the same base) are inverses.

    This result is not in your exam formula booklet.

  • True or False?

    log subscript a x to the power of n equals open parentheses log subscript a x close parentheses to the power of n

    False.

    log subscript a x to the power of n not equal to open parentheses log subscript a x close parentheses to the power of n

    log subscript a x to the power of n equals n log subscript a x

  • True or False?

    straight e to the power of ln x end exponent equals x

    True.

    straight e to the power of ln x end exponent equals x

    Also, a to the power of log a end exponent equals a, the logarithm and the exponent 'cancel' each other out.

    These results are not in your exam formula booklet.

  • How can the expression ln space straight e to the power of x be simplified?

    ln space straight e to the power of x equals x.

    The natural log and the exponent 'cancel' each other out.

  • True or False?

    You can take a log of a negative number.

    False.

    You can not take a log of a negative number.

  • True or False?

    The laws of logarithms can only be used for logarithms with the same base.

    True.

    The laws of logarithms can only be used for logarithms with the same base.

  • What is the change of base logarithm law?

    The change of base logarithm law allows you to change the base of a logarithm using the formula

    log subscript a x equals fraction numerator log subscript b x over denominator log subscript b a end fraction

    This is given in your exam formula booklet.

  • True or False?

    Logarithms can be used to solve exponential equations.

    True.

    Logarithms can be used to solve exponential equations.

  • What is the first step required to solve a basic exponential equation, e.g. straight e to the power of x equals 12?

    The first step required to solve a basic exponential equation is to take logarithms of both sides.

    E.g. for straight e to the power of x equals 12, take the natural log of both sides

    The equation then becomes x space ln space straight e equals ln space 12, which simplifies to x equals ln space 12 (because ln straight e equals 1).

  • True or False?

    You can use the change of base law, log subscript a x equals fraction numerator log subscript b x over denominator log subscript b a end fraction, to solve some exponential equations.

    True.

    You can use the change of base law, log subscript a x equals fraction numerator log subscript b x over denominator log subscript b a end fraction, to solve some exponential equations.

    Some questions may require you to change the base of a particular logarithm in order to apply other logarithm laws.