concave

(adjective)

curved like the inner surface of a sphere or bowl

Related Terms

Examples of concave in the following topics:

  • Image Formation by Spherical Mirrors: Reflection and Sign Conventions

    • Spherical mirrors can be either concave or convex.
    • A summary of the properties of concave mirrors is shown below:
    • The focal point is the same distance from the mirror as in a concave mirror.
    • This figure shows the difference between a concave and convex mirror.
    • This is a ray diagram of a concave mirror.

  • Refraction Through Lenses

    • shows the effect of a concave lens on rays of light entering it parallel to its axis (the path taken by ray 2 in the figure is the axis of the lens).
    • The concave lens is a diverging lens, because it causes the light rays to bend away (diverge) from its axis.
    • Compare the effect of a convex lens and a concave lens on the light rays

  • The Lensmaker's Equation

    • The signs of the lens' radii of curvature indicate whether the corresponding surfaces are convex or concave.
    • The sign convention used to represent this varies, but for our treatment if R1 is positive the first surface is convex, and if R1 is negative the surface is concave.
    • The signs are reversed for the back surface of the lens: if R2 is positive the surface is concave, and if R2 is negative the surface is convex.

  • Stability, Balance, and Center of Mass

    • Explicitly, if the potential is concave-up at x0, $\left.
    • \frac{d^2 U(x)} {dx^2} \right|_{x_0} > 0$, then the system is stable; conversely, if the potential is concave-down, then the equilibrium is unstable.
    • If the ball is at the top of the hill (where the potential is concave-down) it is possible for it to be perfectly balanced, and therefore at equilibrium .

  • Combinations of Lenses

    • A convex plus a concave lens (f1 > 0 >f2) produces a positive magnification and the image is upright.
    • The most common type of achromat is the achromatic doublet, which is composed of two individual lenses made from glasses with different amounts of dispersion Typically, one element is a negative (concave) element made out of flint, which has relatively high dispersion, and the other is a positive (convex) element made of crown glass, which has lower dispersion.

  • Thin Lenses and Ray Tracing

    • Shows how to draw the ray diagrams for locating the image produced by a concave lens and a convex mirror.

  • Satellites

    • Additionally the Moon's orbit with respect to the Sun is always concave.

  • Non-relativistic Shocks

    • 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.