Modelling with Functions (DP IB Applications & Interpretation (AI))

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  • What types of situations can be modelled using a linear model?

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  • What types of situations can be modelled using a linear model?

    Any situation that has a constant rate of change can be modelled by a linear model.

    For example, taxi charges, mobile phone bills, car rental fees, or distance travelled at constant speed.

  • In a linear model, of the form f open parentheses x close parentheses equals m x plus c, what does the c represent?

    In a linear model, of the form f open parentheses x close parentheses equals m x plus c, the c represents the initial value.

    This is the value of the function when x equals 0.

    E.g. consider the function C open parentheses d close parentheses equals 4 d plus 3 being used to model a taxi's charges, where d is the number of miles travelled and C open parentheses d close parentheses is the total cost in dollars of the journey.

    The initial value before travelling anywhere, c, is 3 dollars.

  • In a linear model, of the form f open parentheses x close parentheses equals m x plus c, what does the m represent?

    In a linear model, of the form f open parentheses x close parentheses equals m x plus c, the m represents the rate of change of the function.

    E.g. consider the function C open parentheses d close parentheses equals 4 d plus 3 being used to model a taxi's charges, where d is the number of miles travelled and C open parentheses d close parentheses is the total cost in dollars of the journey.

    The rate of change of the function , m, is 4 dollars per mile travelled.

  • What is a limitation of linear models?

    Linear models continuously increase (or decrease) at the same rate.

    This may not reflect real-life situations where there could be a maximum or minimum value for what is being modelled.

  • Consider a linear function, h open parentheses t close parentheses equals 25 minus 2 t, being used to model the height of water, h open parentheses t close parentheses, in a container, over time, t.

    What is a possible limitation of the model and how can it be overcome?

    This linear function, h open parentheses t close parentheses equals 25 minus 2 t, being used to model the height of water, h open parentheses t close parentheses, in a container, over time, t, is a decreasing function as the coefficient of t is negative.

    This implies that the height of the water in the container is continuously decreasing over time. However, the height of the water cannot actually decrease below zero (i.e. h open parentheses t close parentheses not less-than 0).

    This problem can be overcome by specifying an appropriate domain, e.g. t less or equal than 12.5.

  • Give an example of a situation that could be modelled by a piecewise linear function.

    A piecewise linear function can be used to model a situation where there is a constant rate of change that is different for different intervals.

    For example, a taxi charge that doubles after midnight, or a car rental fee that triples during national holidays.

  • What is a limitation of piecewise linear models?

    One limitation of piecewise linear models is that they assume a constant rate of change in each interval.

    In reality, there may be a continuously variable rate of change or gradual transitions between rates.

  • What types of situations can be modelled using a quadratic model?

    If A quadratic function can be used to model a data set if the graph of the data resembles a union or intersection shape.

    For example, the vertical height, h open parentheses t close parentheses of a football t seconds after being kicked can be modelled by a quadratic function.

  • In a quadratic model of the form f open parentheses x close parentheses equals a x squared plus b x plus c, what does the c represent?

    In a quadratic model of the form f open parentheses x close parentheses equals a x squared plus b x plus c, the c represents the initial value of the situation, i.e. f open parentheses 0 close parentheses equals c.

  • True or False?

    In a quadratic model of the form f open parentheses x close parentheses equals a x squared plus b x plus c where the value of a is negative, the data must have a minimum value.

    False.

    In a quadratic model of the form f open parentheses x close parentheses equals a x squared plus b x plus c where the value of a is negative, the data must have a maximum value.

  • For a quadratic function of the form f open parentheses x close parentheses equals a x squared plus b x plus c, what impact does the absolute value of a have on the rate of change of the function?

    For a quadratic function of the form f open parentheses x close parentheses equals a x squared plus b x plus c, the absolute value of a has an impact on the rate of change of the function:

    • If a has a large absolute value, the rate of change varies rapidly.

    • If a has a small absolute value, the rate of change varies slowly.

  • True or False?

    The symmetry of a quadratic function can be a limitation of using it to model a real-life situation.

    True.

    The symmetry of a quadratic function can be a limitation of using it to model a real-life situation.

    Real-life data is often not perfectly symmetrical.

  • True or False?

    A cubic model can be appropriate when the graph of the data being modelled has exactly one maximum and one minimum within an interval

    True.

    A cubic model can be appropriate when the graph of the data being modelled has exactly one maximum and one minimum within an interval

  • What is a limitation of cubic models?

    A limitation of cubic models is that they have no global maximum or minimum.

    In real life there is often a maximum or minimum possible value. To overcome this limitation, an appropriate domain can be specified for the cubic function being used to model the situation.

  • True or False?

    For a cubic model of the form f open parentheses x close parentheses equals a x cubed plus b x squared plus c x plus d, the value for a has the greatest impact on the rate of change of the function.

    True.

    For a cubic model of the form f open parentheses x close parentheses equals a x cubed plus b x squared plus c x plus d, the value for a has the greatest impact on the rate of change of the function.

  • What types of situations can be modelled by an exponential function?

    Exponential functions can be used to model a situation where there is a constant percentage increase or decrease, such as functions generated by geometric sequences.

    For example, the value of a car, V open parentheses t close parentheses, after t years.

  • What does "initial" often indicate in exponential modelling problems?

    The word "initial" in an exponential modelling question indicates the start of the situation being modelled, e.g. x equals 0 or t equals 0 (depending on the variable being used).

    To find the initial value of an exponential function, set the variable equal to zero (and simplify the equation if necessary).

  • True or False?

    For a situation modelled by an exponential function of the form f open parentheses x close parentheses equals k a to the power of negative x end exponent plus c, a value of a that is greater than 0 but less than 1 indicates exponential decay.

    False.

    For a situation modelled by an exponential function of the form f open parentheses x close parentheses equals k a to the power of negative x end exponent plus c, a value of a that is greater than 0 but less than 1 does not indicate exponential decay. It represents exponential growth.

    For a function of that form, a value of a that is greater 1 does indicate exponential decay.

  • For an exponential model of the form f open parentheses x close parentheses equals k a to the power of x plus c, what does the c represent?

    For an exponential model of the form f open parentheses x close parentheses equals k a to the power of x plus c, the c represents the boundary of the model. This is the value that f open parentheses x close parentheses gets closer and closer to but can never be equal to.

    On the graph, there will be a horizontal asymptote at y equals c.

  • For an exponential model of the form f open parentheses x close parentheses equals k straight e to the power of r x end exponent plus c , what does the r represent?

    For an exponential model of the form f open parentheses x close parentheses equals k straight e to the power of r x end exponent plus c , the parameter r describes the rate of growth or decay.

    The bigger the absolute value of r, the faster the function increases/decreases.

  • What is a limitation of exponential growth models?

    A limitation of exponential growth models is that they do not have a maximum, which may not be realistic in real-life situations.

    E.g. for an exponential function modelling the spread of a disease in a population, there will be a maximum when all members of the population are infected.

  • What is direct variation?

    Direct variation (or direct proportion) means that as one variable goes up the other goes up by the same factor.

  • True or False?

    If x to the power of n and y vary directly (where n is a positive integer), then the ratio bold italic x to the power of bold italic n bold space end exponent bold colon bold space bold italic y will always be the same.

    True.

    If x to the power of n and y vary directly, then bold italic x to the power of n bold space bold colon bold space bold italic y will always be the same.

  • What is k used to represent when working with direct variation?

    When working with direct variation, k is used to represent the constant of proportionality that connects x to the power of n (where n is a positive integer) and y.

    y equals k x to the power of n when x to the power of n and y vary directly.

  • True or False?

    A graph of two variables that vary directly with one another can intercept the y-axis at any point.

    False.

    A graph of two variables that vary directly with one another can not intersect the y-axis at any point.

    The graph will always intercept the y-axis at open parentheses 0 comma space 0 close parentheses.

  • True or false?

    When solving a direct variation problem, one of the first things you should do is find the value of the constant of proportionality k.

    True.

    When solving a direct variation problem, one of the first things you should do is find the value of the constant of proportionality k.

  • What is inverse variation?

    Inverse variation (or inverse proportion) means as one variable goes up the other goes down by the same factor.

  • True or False?

    If x to the power of n varies inversely with y (where n is a positive integer), then the ratio bold italic x to the power of bold italic n bold space bold colon bold space bold italic y will always be the same.

    False.

    If x to the power of n varies inversely with y, then bold 1 over bold italic x to the power of n italic space end exponent bold colon bold space bold italic y will always be the same.

  • What is k used to represent when working with inverse variation?

    When working with inverse variation, k is used to represent the constant of proportionality that connects x to the power of n (where n is a positive integer) and y.

    y equals k over x to the power of n when x to the power of n and y vary inversely.

  • True or False?

    The graph of two quantities that vary inversely is a straight line.

    False.

    The graph of two quantities that vary inversely is not a straight line.

    Graph of y = k/x with asymptotes along the x and y axes.
  • What types of situations can be modelled by a sinusoidal model?

    Any situation where the quantity being measured oscillates (fluctuates periodically) can be modelled by a sinusoidal model.

    For example, the depth of water at a shore, D open parentheses t close parentheses, at t hours after midnight.

  • State a limitation of sinusoidal models with regard to the amplitude of the model.

    A limitation of sinusoidal models, with regard to the amplitude of the model, is that the amplitude is the same for each cycle. This may not be the case in real-life situations.

  • True or False?

    The period of a sinusoidal model always changes over time.

    False.

    The period of a sinusoidal model does not change over time. The period is constant for each cycle.

    In real life, however, the time to complete a cycle might change over time.

  • For a sinusoidal function of the form f open parentheses x close parentheses equals a sin open parentheses b x close parentheses plus d, what happens to the graph as the value of a increases?

    For a sinusoidal function of the form f open parentheses x close parentheses equals a sin open parentheses b x close parentheses plus d, the a represents the amplitude of the function.

    As a increases, the range of the values of the function also increases (the maximums get higher and the minimums get lower).

  • In a sinusoidal model of the form f open parentheses x close parentheses equals a sin open parentheses b x close parentheses plus d, what does the d represent?

    In a sinusoidal model of the form f open parentheses x close parentheses equals a sin open parentheses b x close parentheses plus d, the d represents the principal axis.

    This is the line about which the function fluctuates, and it has the equation y equals d

  • True or False?

    In a sinusoidal function of the form f open parentheses x close parentheses equals a cos open parentheses b x close parentheses plus d, the greater the value of b, the quicker the function repeats a cycle.

    True.

    In a sinusoidal function of the form f open parentheses x close parentheses equals a cos open parentheses b x close parentheses plus d, the greater the value of b, the quicker the function repeats a cycle.

  • What does the domain represent in mathematical modelling?

    In mathematical modelling, the domain represents the reasonable range of input values, considering the real-life context of the situation being modelled.

  • How can unknown parameters be found in mathematical models?

    Unknown parameters in mathematical models can be found by forming equations, substituting given values and solving the equations simultaneously.

    You will frequently use a graphing calculator (GDC) to help with this.

  • What is extrapolation in mathematical modelling?

    Extrapolation is making predictions outside the range of the data.

  • True or False?

    Extrapolation is an accurate method for predicting new values in mathematical modelling.

    False.

    Extrapolation is not considered to be an accurate method for predicting new values in mathematical modelling.

  • What is a key strategy used to overcome the limitation of a model only being accurate for a portion of the real-life situation?

    A key strategy used to overcome the limitation of a model only being accurate for a portion of the real-life situation is to restrict the domain appropriately.