To find the volume of a cube, just measure one edge, and then take the third power of that number (which is to say, it gets multiplied by itself 3 times, so for an edge that it 2" long, you would have 2 x 2 x 2 = 8 cubic inches).
To find the volume of an irregularly shaped object, you need a graduated cylinder. You immerse the object in water, and you observe how far the water level rises in the cylinder. If the object is soluble in water, you might use some other liquid such as cooking oil.
A cube is hardly an irregularly shaped object. Measuring it is the defining term of area and volume. A cube is defined as having twelve sides, all lengths uniform, all angles right angles. If the length of any side is 'a' then area = 6*a*a volume = a*a*a
The shape of an object is not enough to calculate its density. You also need its mass and then Density = Mass/Volume.
The answer depends on what information you do have about the object.
Finding the volume of a regular object cube can be hard. This will be hard because there is no real formula for measuring irregular objects.
A cube perhaps?
the volume of a cube is a*3
A cube is hardly an irregularly shaped object. Measuring it is the defining term of area and volume. A cube is defined as having twelve sides, all lengths uniform, all angles right angles. If the length of any side is 'a' then area = 6*a*a volume = a*a*a
The shape of an object is not enough to calculate its density. You also need its mass and then Density = Mass/Volume.
To find the volume of a cube, just measure one edge, and then take the third power of that number (which is to say, it gets multiplied by itself 3 times, so for an edge that it 2" long, you would have 2 x 2 x 2 = 8 cubic inches). To find the volume of an irregularly shaped object, you need a graduated cylinder. You immerse the object in water, and you observe how far the water level rises in the cylinder. If the object is soluble in water, you might use some other liquid such as cooking oil.
To find the volume of a six-sided object, you will need to know the shape of the object (e.g., cube, hexagonal prism) and the dimensions such as the length, width, and height or the side length. Then, you can use the formula specific to that shape to calculate the volume.
The volume of a cube equals its side length cubed. In this case it is 4cm3 which gives a volume of 64cm3
The answer depends on what information you do have about the object.
Finding the volume of a regular object cube can be hard. This will be hard because there is no real formula for measuring irregular objects.
The method for determining the volume of a solid depends on its shape. The volume of a solid object with a regular geometric shape (rectangular box, cube, cylinder, sphere) can be determined using the volume formula for the shape. Because many objects are not regularly shaped their volume cannot be determined using a volume formula. The volume of these objects can be found by water displacement. A volume of water sufficient to cover the object is placed in a graduated cylinder and the volume read. The object is added to the cylinder and the volume read again. The difference between the two volumes is the volume of the object.
To calculate the volume of a regularly shaped object, you typically need to know its dimensions such as length, width, and height, and then use the appropriate formula for that shape. For example, the volume of a cube is found by multiplying the length, width, and height of the cube. The formula for the volume of a cylinder is πr^2h, where r is the radius of the base and h is the height.
The measure of how much of an object there is defined by its volume, which represents the amount of space occupied by the object in three dimensions. This can be calculated using different formulas depending on the shape of the object, such as for a cube (volume = side length^3) or a cylinder (volume = π * r^2 * h).
No, density is a characteristic property of a material and does not change based on the size or shape of an object. If the large cube and small cube are made of the same material, they will have the same density regardless of their size. Density is calculated by dividing an object's mass by its volume.