It doesn't really matter whether the contents is liquid or otherwise. Formulae for several regular shapes are known - you can use one of them. If you don't find the formula for a specific shape, you can use integration. This is covered in introductory calculus books; roughly speaking, it means dividing the shape into small pieces, for example, small rectangles. That's how many of the well-known formulae are obtained, as well.
The unit used for measuring the volume of regular shaped solid objects is typically cubic units such as cubic centimeters (cm³) or cubic meters (m³). This unit represents the amount of space an object occupies in three dimensions.
To measure the density of objects in liquids, you can first measure the mass of the object using a scale. Then, immerse the object in a known volume of the liquid and measure the increase in volume. Finally, calculate the density using the formula: density = mass/volume.
To calculate the density of an irregular shaped object like a key, you would first measure its mass using a scale. Next, you would measure its volume using a displacement method with water. Finally, you would divide the mass of the key by its volume to determine the density.
It depends on the way the question is asked. If you are dealing with a cubic or rectangular object, you measure the length, width, and height, and multiply them. If it is a spherical or irregularly shaped object, you could used water displacement to find its volume. If it's a liquid, you could use a graduated cylinder to measure its volume.
To measure the volume of a regular object, determine the length, width, and height of the object. Multiply these three dimensions together to calculate the volume in cubic units.
For a regular shaped object, like a cube or cylinder, the volume can be calculated using a simple formula based on its dimensions. However, for an irregular shaped object, the volume is determined by measuring the displaced water when the object is submerged in a liquid or by using advanced techniques like laser scanning or 3D modeling. This makes calculating the volume of irregular shaped objects more complex and time-consuming compared to regular shaped objects.
cubed
conclusion
To calculate the density of a regular shaped object, you need to measure its mass and volume. The density is then calculated by dividing the mass of the object by its volume. The formula for density is: density = mass / volume.
The density of a regular object can be determined by dividing the object's mass by its volume. For an irregular object, its density can be found by dividing its mass by the displacement of water when the object is submerged, also known as the buoyant force.
LxWxH=Answer _ cm3
The liquid displacement formula is used to calculate the volume of an irregularly shaped object by measuring the volume of liquid it displaces when submerged in a container of liquid. The formula states that the volume of the object is equal to the difference in volume between the liquid level before and after submerging the object.
Yes
Volume can be measured in various ways depending on the object being measured. For regular-shaped objects, volume can be calculated using mathematical formulas based on dimensions such as length, width, and height. For irregular-shaped objects, volume can be measured by displacement, where the object is submerged in a liquid and the volume of liquid displaced is measured. Specialized equipment like graduated cylinders, beakers, or volumetric flasks can also be used to directly measure liquid volumes.
To calculate the density of an irregular shaped floating object, you can measure its mass using a balance and then find its volume by submerging it in a known volume of water and measuring the water displaced. For a regular shaped floating object, you can simply divide its mass by its volume to find the density.
To find the density of a regular shaped object, you can calculate it by dividing the mass of the object by its volume. For irregular shaped objects, you would measure the mass of the object using a scale, then measure its displaced water volume when submerged in a graduated cylinder. The density can then be calculated by dividing the mass by the volume of water displaced.
lenght x weight x height