If the coefficient of x^3 is negative then the shape is a bit like the letter "S" pushed over from the left and then both free ends stretched out for ever.
Such a graph starts at the top left and goes down towards the bottom right with the gradient (slope) becoming steadily less steep. It can then move upwards for a short while before it continue its downward motion - only this time the gradient becomes steeper as you go along. Note that the upward bump may not be there (if there is a point of inflexion).
If the coefficient of x^3 is positive then the graph is a mirror image.
A cubic.
A cubic graph!
The cubic function.
hyperbola * * * * * A hyperbola is not a cubic function. A cubic function is of the form y = ax3 + bx2 + cx + d where a, b, c and d are real constants and a is not 0. A hyperbola is a functon of the form y = 1/x : quite different.
Cubic.
A cubic.
cubic function cubic function
The inverse of the cubic function is the cube root function.
yes any shape can be a cubic metre
Halite forms cubic crystals.
A cubic function is a smooth function (differentiable everywhere). It has no vertices anywhere.
It was formed in a cubic shape that was discovered by Bob in 1827. Wisecracker noticed its cubic geometric shape and formalized it in 1831.
A cubic graph!
The question does not make sense.One part of a one-cubic metre shape makes a cubic metre.Half of a two-cubic metre shape makes a cubic metre, and so on.
The cubic function.
The shape of a mineral depends on the chemical structure that the bonds form between atoms in the mineral. A cubic mineral (such as pyrite) has a chemical structure that, as bonds are made, a cubic shape is formed.
A cube....