quadrat

(noun)

a square area, marked with boundaries for studying the population size and density of plants and sessile animals

Related Terms

Examples of quadrat in the following topics:

  • Solving a Quadratic Equation with the Quadratic Formula

  • What is a Quadratic Function?

    • Quadratic equations are second order polynomials, and have the form f(x)=ax2+bx+cf(x)=ax^2+bx+c.
    • A quadratic function is of the general form:
    • A quadratic equation is a specific case of a quadratic function, with the function set equal to zero:
    • All quadratic functions both increase and decrease.
    • Quadratic functions can be expressed in many different forms.

  • The Quadratic Formula

    • The zeros of a quadratic equation can be found by solving the quadratic formula.
    • The quadratic formula is one tool that can be used to find the roots of a quadratic equation.  
    • The quadratic formula can always be used to find the roots of a quadratic equation, regardless of whether the roots are real or complex, whole numbers or fractions, and so on.
    • The first criterion must be satisfied to use the quadratic formula because conceptually, the formula gives the values of xx where the quadratic function f(x)=ax2+bx+c=0f(x) = ax^2+bx+c = 0; the roots of the quadratic function.
    • Solve for the roots of a quadratic function by using the quadratic formula

  • A Graphical Interpretation of Quadratic Solutions

    • The roots of a quadratic function can be found algebraically or graphically.
    • Recall how the roots of quadratic functions can be found algebraically, using the quadratic formula (x=b±b24ac2a)(x=\frac{-b \pm \sqrt {b^2-4ac}}{2a}).
    • Consider the quadratic function that is graphed below.
    • Recall that the quadratic equation sets the quadratic expression equal to zero instead of f(x)f(x):
    • Graph of the quadratic function f(x)=x2x2f(x) = x^2 - x - 2

  • Standard Form and Completing the Square

    • In algebra, parabolas are frequently encountered as graphs of quadratic functions, such as:
    • Completing the square may be used to solve any quadratic equation.
    • This can be applied to any quadratic equation.
    • Graph with the quadratic equation .
    • The graph of this quadratic equation is a parabola with x-intercepts at -1 and -5.

  • Linear and Quadratic Functions

    • Linear and quadratic functions make lines and a parabola, respectively, when graphed and are some of the simplest functional forms.
    • Linear and quadratic functions make lines and parabola, respectively, when graphed.
    • A quadratic function, in mathematics, is a polynomial function of the form: f(x)=ax2+bx+c,a0f(x)=ax^2+bx+c, a \ne 0.
    • The graph of a quadratic function is a parabola whose axis of symmetry is parallel to the y-axis .
    • If the quadratic function is set equal to zero, then the result is a quadratic equation.

  • Other Equations in Quadratic Form

    • Many equations with no odd-degree terms can be reduced to quadratics and solved with the same methods as quadratics.
    • If a substitution can be made such that the higher order polynomial takes the form of a quadratic, any method for solving a quadratic equation can be applied.  
    • Consider a quadratic function with no odd-degree terms which has the form:
    • With substitution, we were able to reduce a higher order polynomial into a quadratic equation.  
    • Use the quadratic formula to solve any equation in quadratic form

  • The Discriminant

    • where aa, bb and ccare the constants (aa must be non-zero) from a quadratic polynomial.
    • The discriminant Δ=b24ac\Delta =b^2-4ac is the portion of the quadratic formula under the square root.
    • If Δ{\Delta} is equal to zero, the square root in the quadratic formula is zero:
    • Since adding zero and subtracting zero in the quadratic equation lead to the same outcome, there is only one distinct root of the quadratic function.
    • Graph of a polynomial with the quadratic function f(x) = x^2 - x - 2.

  • Completing the Square

    • Completing the square is a common method for solving quadratic equations, and takes the form of 0=a(xh)2+k0=a(x-h)^2 + k.
    • Along with factoring and using the quadratic formula, completing the square is a common method for solving quadratic equations.  
    • This quadratic is not a perfect square.  
    • However, it is possible to write the original quadratic as the sum of this square and a constant:
    • Solve for the zeros of a quadratic function by completing the square

  • Factoring General Quadratics

    • We can factor quadratic equations of the form ax2+bx+cax^2 + bx + c by first finding the factors of the constant cc.  
    • The factored form of a quadratic equation takes the general form:
    • Let the quadratic equation be:
    • Let the quadratic equation be:
    • Employ techniques to see whether a general quadratic equation can be factored