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.
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 calculate the density of a regular-shaped object, you need to measure the mass of the object using a scale and then measure the volume of the object using a ruler or other measuring tools. Once you have these values, you can divide the mass by the volume to calculate the density (density = mass/volume).
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.
The speed of sound through an object is related to the density and elasticity of the material. Velocity = square root of (elasticity (bulk modulus) divided by density). Thus if you can measure the material's elasticity and the velocity of sound waves passed through it, the density can be calculated without reference to the mass of the object.
Measure the volume of the object which is same as the volume of the displaced liquid in which that sinks. And measure the mass of the same object from a weighing machine. then use density = mass/volume
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 calculate the density of a regular-shaped object, you need to measure the mass of the object using a scale and then measure the volume of the object using a ruler or other measuring tools. Once you have these values, you can divide the mass by the volume to calculate the density (density = mass/volume).
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.
conclusion
density=mass/volume Thtas how dez equations are found.
think of something ya self cheater
The speed of sound through an object is related to the density and elasticity of the material. Velocity = square root of (elasticity (bulk modulus) divided by density). Thus if you can measure the material's elasticity and the velocity of sound waves passed through it, the density can be calculated without reference to the mass of the object.
I am not positive but i think that a regular shaped object can be measured and an irregular can not Hope this helps :D
Measure the volume of the object which is same as the volume of the displaced liquid in which that sinks. And measure the mass of the same object from a weighing machine. then use density = mass/volume
To calculate the density of an irregularly shaped object, you would typically use a scale to measure its mass and a graduated cylinder to measure its volume by displacement of water. The density can then be calculated by dividing the mass by the volume.
First you get the object mass by weighing it.Then you get its volume by immersing it in a scaled water container and see the increase in water volume which gives the object volume.Then you divide the mass by the volume to get the object density.
The same units are used for regular or irregular objects - for example, kilogram per cubic meter.