A shape has no volume. It is two-dimensional, and thus only has height and width - no depth. For shape, area describes how much space it takes up. Volume describes how much space a three-dimensional solid takes up. Just a few examples: Square: s2 Equilateral Triangle: [(sqrt3)/4]s2 Rectange: LW Cube: a3 Rectangular Prism: LWH Pyramid: (1/3)Ah To compute the volume of a complex solid, break it down into a series of solids that you CAN find the volume of individually, and then add the volumes to get the total volume. For instance, to find the volume of a single picket fence post, breakit down into a rectangular prism and a wedge, find their separate volumes, and then add them.
To find the volume of an element, calculate the product of its length, width, and height if it is a rectangular shape. If the element is a cylinder, calculate the volume using the formula V = πr²h, where r is the radius and h is the height. For irregular shapes, use integration or approximation methods to find the volume.
water
A liquid does not have a definite shape; it takes the shape of its container. This is because the particles in a liquid are free to move and flow past one another.
The formula to find the density of an irregular shaped object involves dividing the mass of the object by its volume. To determine the volume of an irregular shaped object, you can use methods such as water displacement or integral calculus to find the object's volume.
You can find the diameter of an asteroid knowing its density and mass by using the formula for volume of a sphere (V = 4/3 * π * r^3, where r is the radius) and density (density = mass/volume). With the asteroid's mass, you can calculate its volume using density, and then find the radius using the volume formula. Finally, double the radius to find the diameter.
Find the circumferrenceThen divide that by the diameterMeasure the shapes' anglesMultiplyThats how you find the liqiud volume of a shape.
Put the object in a bath of water and see what volume of water is displaced.
length*heigh*width
The volume of anything is always the area of the base of the object times the height. Therefore, to find the volume the object must have a height, which makes volume work with all 3D shapes. If one is looking at a 2D shape, then there is no height so a volume cannot be calculated (note: areas may be found of 2D shapes).
Solids have definite shapes and definite volume.
You can't. Volume is only for 3 dimensional shapes. You won't find a way of using volume in any kind of 2 dimensional stuff.
Yes many different shapes can have the same volume
Well in general, you can find volume if you have the relevant dimensions. It's much easier for simple shapes. For complicated shapes, it's easier to use other methods. Immersing an irregularly shaped object in a graduated cylinder is a very useful method of finding volume.
You get the Volume by using formulas. There is usually a specific formula to find the volume of each shape. Some irregular shapes may not have a formula.
Try to break it down to regular shapes/objects.
To find the volume of an element, calculate the product of its length, width, and height if it is a rectangular shape. If the element is a cylinder, calculate the volume using the formula V = πr²h, where r is the radius and h is the height. For irregular shapes, use integration or approximation methods to find the volume.
There are many ways to find the volume of irregular shapes, but the most commonly used method is Water Displacement.