Differential Equations (DP IB Applications & Interpretation (AI))

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  • What is a differential equation?

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  • What is a differential equation?

    A differential equation is an equation that contains derivatives.

    E.g. fraction numerator straight d y over denominator straight d x end fraction equals 12 x y squared and fraction numerator straight d squared x over denominator straight d t squared end fraction minus 5 fraction numerator straight d x over denominator straight d t end fraction plus 7 x equals 5 sin invisible function application t are both differential equations.

  • Why are differential equations useful for modelling real-world situations?

    Differential equations are useful for modelling real-world situations because, like many real-world situations, they deal with rates of change and how variables change with respect to one another.

  • What equation can be written down right away on the basis of the information that "the rate of change of a population, P, at a particular time is proportional to the size of the population at that time"?

    The information "the rate of change of a population, P, at a particular time is proportional to the size of the population at that time"? is equivalent to the equation fraction numerator straight d P over denominator straight d t end fraction equals k P

    Where:

    • k is the constant of proportionality (which will usually need to be found)

    • t is the variable for time (often, but not always, measured in seconds)

  • True or False?

    The simple model fraction numerator straight d N over denominator straight d t end fraction equals k N represents unlimited exponential growth when k greater than 0.

    True.

    The simple model fraction numerator straight d N over denominator straight d t end fraction equals k N represents unlimited exponential growth when k greater than 0.

  • What method can be used to solve a differential equation of the form fraction numerator straight d N over denominator straight d t end fraction equals k N, where k is a constant?

    A differential equation of the form fraction numerator straight d N over denominator straight d t end fraction equals k N, where k is a constant, can be solved using separation of variables.

  • True or False?

    All first order differential equations can be solved using separation of variables.

    False.

    Only certain types of first order differential equations can be solved using separation of variables.

  • What form must a differential equation be in to use separation of variables?

    To use separation of variables, a differential equation must be in the form fraction numerator straight d y over denominator straight d x end fraction equals g open parentheses x close parentheses h open parentheses y close parentheses.

    E.g. fraction numerator straight d y over denominator straight d x end fraction equals x y squared or fraction numerator straight d y over denominator straight d x end fraction equals fraction numerator sin x over denominator y cubed end fraction equals sin x open parentheses 1 over y cubed close parentheses.

  • What are the steps for solving a differential equation using separation of variables?

    The steps for solving a differential equation using separation of variables are:

    1. Rearrange fraction numerator straight d y over denominator straight d x end fraction equals g open parentheses x close parentheses h open parentheses y close parentheses into the form fraction numerator 1 over denominator h open parentheses y close parentheses end fraction fraction numerator straight d y over denominator straight d x end fraction equals g open parentheses x close parentheses.

    2. Integrate both sides with respect to x to get integral fraction numerator 1 over denominator h open parentheses y close parentheses end fraction straight d y equals integral g open parentheses x close parentheses straight d x.

    3. Solve the integrals.

    4. Use boundary or initial conditions (if any).

    5. Rearrange (if necessary).

  • True or False?

    The differential equation fraction numerator d y over denominator d x end fraction equals 6 y cannot be solved using separation of variables, because there is no function of x on the right-hand side.

    False.

    The differential equation in fraction numerator d y over denominator d x end fraction equals 6 y can be solved using separation of variables.

    In this case the 'function of x' on the right-hand side is the 6. I.e. let g left parenthesis x right parenthesis equals 6 and let h left parenthesis y right parenthesis equals y, and then solve using separation of variables as usual.

  • What is a slope field for the equation fraction numerator d y over denominator d x end fraction equals g open parentheses x comma space y close parentheses?

    A slope field for the equation fraction numerator d y over denominator d x end fraction equals g open parentheses x comma space y close parentheses is a diagram with short tangent lines drawn at a number of points. These are used to give an idea of what the graphs of the solutions look like.

    For example, the slope field for fraction numerator d y over denominator d x end fraction equals y sin x minus straight e to the power of negative cos x end exponent cos x is shown below.

    A grid with short tangents drawn at equally spaced-out points.
  • True or False?

    When drawing a solution on a slope field, you need to join the tangent lines together.

    False.

    When drawing a solution on a slope field, you should not join the tangent lines together.

    An example is shown below.

    A slope field with a solution drawn using the tangents to show the shape.
  • How do you find the set of points for which the solutions to fraction numerator d y over denominator d x end fraction equals g open parentheses x comma space y close parentheses will have horizontal tangents?

    To find the set of points for which the solutions to fraction numerator d y over denominator d x end fraction equals g open parentheses x comma space y close parentheses will have horizontal tangents, you solve the equation g open parentheses x comma space y close parentheses equals 0.

  • Given a boundary condition, how do you sketch a solution curve using slope fields?

    Given a boundary condition, you can sketch a solution curve using slope fields by starting at the given point and using the tangent lines to help you determine the steepness of the solution curve changes.

  • True or False?

    A solution curve can cut across the tangent lines on a slope field diagram.

    False.

    A solution curve should not cut across the tangent lines on a slope field diagram.

  • What is a first order differential equation?

    A first order differential equation is a differential equation that contains first derivatives but no second (or higher) derivatives.

    E.g. fraction numerator straight d y over denominator straight d x end fraction equals 12 x y squared is a first order differential equation, but fraction numerator straight d squared x over denominator straight d t squared end fraction minus 5 fraction numerator straight d x over denominator straight d t end fraction plus 7 x equals 5 sin invisible function application t is not (because of the fraction numerator straight d squared x over denominator straight d t squared end fraction term).

  • What is Euler's method?

    Euler's method is a numerical method for finding approximate solutions to differential equations.

  • State the recursion equations that are used when applying Euler's method to find an approximate solution for a differential equation of the form fraction numerator straight d y over denominator straight d x end fraction equals f open parentheses x comma space y close parentheses.

    The recursion equations that are used when applying Euler's method to find an approximate solution for a differential equation of the form fraction numerator straight d y over denominator straight d x end fraction equals f open parentheses x comma space y close parentheses arey subscript n plus 1 end subscript equals y subscript n plus h cross times f open parentheses x subscript n comma space y subscript n close parentheses and x subscript n plus 1 end subscript equals x subscript n plus h

    Where:

    • h is the constant step length

    These equations are given in the exam formula booklet.

  • In general, how can the accuracy of Euler's method be improved?

    The accuracy of Euler's method can be improved by decreasing the step size h.

  • True or False?

    Euler's method always gives exact solutions to differential equations.

    False.

    Euler's method gives approximate solutions to differential equations.

  • What are boundary conditions in differential equations?

    Boundary conditions are known values (usually initial values) given for the variables in a differential equation.

  • State the recursion equations that are used when applying Euler's method to find an approximate solution for coupled differential equations of the form fraction numerator d x over denominator d t end fraction equals f subscript 1 left parenthesis x comma y comma t right parenthesis and fraction numerator d y over denominator d t end fraction equals f subscript 2 left parenthesis x comma y comma t right parenthesis.

    The recursion equations are:

    x subscript n plus 1 end subscript equals x subscript n plus h cross times f subscript 1 open parentheses x subscript n comma space y subscript n comma space t subscript n close parentheses

    y subscript n plus 1 end subscript equals y subscript n plus h cross times f subscript 2 open parentheses x subscript n comma space y subscript n comma space t subscript n close parentheses

    t subscript n plus 1 end subscript equals t subscript n plus h

    Where:

    • h is the constant step length

    These equations are given in the exam formula booklet.