secant

(noun)

a straight line that intersects a curve at two or more points

Related Terms

  • tangent
  • mean

Examples of secant in the following topics:

  • Secant and the Trigonometric Cofunctions

    • The secant function is the reciprocal of the cosine function, and is abbreviated as $\sec$.
    • It is easy to calculate secant with values in the unit circle.
    • Therefore, the secant function for that angle is
    • As with secant, cosecant can be calculated with values in the unit circle.
  • Trigonometric Symmetry Identities

    • We will now consider each of the trigonometric functions and their cofunctions (secant, cosecant, and cotangent), and observe symmetry in their graphs.
    • The cosine and secant functions are symmetric about the y-axis.
    • Notice that only two of the trigonometric identities are even functions: cosine and secant.
    • Cosine and secant are even functions, with symmetry around the $y$-axis.
  • The Mean Value Theorem, Rolle's Theorem, and Monotonicity

    • In calculus, the mean value theorem states, roughly: given a planar arc between two endpoints, there is at least one point at which the tangent to the arc is parallel to the secant through its endpoints .
    • For any function that is continuous on $[a, b]$ and differentiable on $(a, b)$ there exists some $c$ in the interval $(a, b)$ such that the secant joining the endpoints of the interval $[a, b]$ is parallel to the tangent at $c$.
  • Trigonometric Functions

    • The sine, tangent, and secant functions of an angle constructed geometrically in terms of a unit circle.
  • Hyperbolic Functions

  • Circles as Conic Sections

    • Secant: an extended chord, a straight line cutting the circle at two points.
  • Non-relativistic Shocks

    • so the Mach numbers on each side of the shock are given by the ratio of the slope of the secant to the slope of the tangent.
    • Because all of the adiabats are concave up in the $p-V-$plane, the slope of the secant must be larger than that of the tangent at $(p_1,V_1)$, so the flow enters the shock supersonically.
    • Conversely at $(p_2,V_2)$the slope of the secant must be small than that of the tangent, so the flow exits the shock subsonically.
  • The Derivative and Tangent Line Problem

    • The slope of the secant line passing through $p$ and $q$ is equal to the difference quotient
  • Limit of a Function

    • It also appears in the definition of the derivative: in the calculus of one variable, this is the limiting value of the slope of secant lines to the graph of a function.
  • Trigonometric Integrals

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