5/8 of it.
regular shape is a shape that has same sides irregular shape is a shape that has diffrent sides
A static shape is a shape that is stable and still. It is the opposite of a dynamic shape which is an active shape that is moving.
yes a pentagon is a rigid shape * * * * * I am afraid that it is not.
It depends on the 3d shape.
The appropriate fraction of a given shape.
A rectangle is a whole shape and so there is no fraction.
5/8 of it.
draw any shape and follow the numerator,denominator and fraction bar Remember these
turn symmetry is when you turn your shape a fraction of a way in a circle and it still makes the same shape
Fraction Basically means dividing different shape(or other things) into parts, and then finding out the numerator, which tells you the fraction.
The fraction βfour-sixthsβ would mean βfour triangles,β because one-sixth of the hexagon is a triangle.
In the context of multiplying fractions, the term "proper shape" refers to the format in which the fractions are written before performing the multiplication operation. When multiplying fractions, it is essential to ensure that the fractions are in their simplest form, with no mixed numbers or improper fractions. This simplifies the calculation process and allows for easier manipulation of the numerators and denominators during multiplication. Therefore, maintaining the fractions in fraction form ensures accuracy and efficiency in the multiplication process.
Split the shape up into 5 equal portions and shade any three of the portions.
pressure drops, void fraction, slip, hold up, velocity, conentrations, shape,size and density of the particles. etc.....
Since a unit fraction IS a fraction, it is like a fraction!Since a unit fraction IS a fraction, it is like a fraction!Since a unit fraction IS a fraction, it is like a fraction!Since a unit fraction IS a fraction, it is like a fraction!
The most direct way to calculate the area of an irregular shape is to superimpose it on graph paper, and then count the number of complete squares that it covers, and for squares that are only partially covered, estimate how much of the square is covered to the nearest simple fraction (a half, a third etc.). If you want the surrounding area rather than the area of the shape itself, you could calculate the total area and then subtract the area of the shape.