The apex of a curve refers to the highest point or the peak of that curve, particularly in the context of parabolic or conical shapes. In mathematics, this term is often used in relation to quadratic functions, where the apex represents the vertex of the parabola. In a broader sense, it can also signify the maximum or minimum point on any smooth, continuous curve. The apex is important in various fields such as physics, engineering, and economics, where it can indicate optimal conditions or limits.
difference between leaning curve and experience curve
The difference between individual supply curve and the market supply curve is tat individual supply curve is like a firm. To be able to get the market supply curve you have to have the individual supply curve.
by finding where the supply curve and the demand curve intersect
Flase, The suuply curve of a "perfect competition" is its marginal cost curve
No. If you tilt a parabola, you will still have a parabolic curve but it will no longer be a parabola.
A curve. It would be called a parabolic curve.
it's a curve and a line but not a curve ANDa line
A projectile makes a curved path known as a parabolic curve when launched horizontally or at an angle. This curve is a result of the combined effects of gravity and the horizontal velocity of the projectile.
a linear curve does not represent x^2
A parabolic curve is a curve where any point in the curve is an equal distance from two areas. It is an equal distance away from the focus, or fixed point and the fixed straight line, or the directrix.
In mathematics, a parabolic shape refers to a U-shaped curve that is symmetric around an axis. Parabolic structures often exhibit properties like focusing parallel rays of light to a single point (as in parabolic mirrors) or guiding projectiles (as in parabolic trajectories).
Based on the given problem,parabolic and cubic curves are drawn in SFD and BMD.if the given problem has UDL(uniformly distributed load),then we get parbolic curve in BMD.if the given problem contains UVL(uniformly distributed load),then we get parabolic curve in SFD and cubic in BMD.
f(x) = x2 This describes a parabolic curve, with it's vertex at the point (0, 0)
The incoming light will intersect at a focal point determined by parabolic curve of the mirror.
Arhithmetic progression is linear, while geometric grows in a parabolic way (a curve).
NO!!!! On a graph a quadratic equation becomes a parabolic curve. If this curve intersects the x-axis in two places. then there are two different answers. If the curve just touches the x-axix on one place then there are two answers which both have the same valuer. If the curve does NOT touch the x-axis the there are NO solutions.