yes
All substances have volume, but gravity is not a substance; gravity is a force and has no volume.
Weight = (density) times (volume)The definition of density is mass/volume .Now [ weight = mass x gravity ], so [ mass = weight/gravity ], and [ density = weight/gravity x volume ] .So Weight = (density) x (volume) x (gravity)
Density is not affected by gravity. Density is affected by mass and volume, such that density = mass/volume. Weight, but not mass, is affected by gravity. Weight and mass are not the same thing.
To find the volume of a substance when given its mass and specific gravity, divide the mass by the product of the specific gravity and the density of water (1000 kg/m^3). The formula is: Volume = Mass / (Specific Gravity * Density of Water).
To find the volume of the mineral, you would first calculate the volume of the mineral using the formula: Volume = Mass / Specific Gravity. In this case, Volume = 2851.2g / 4.2 = 679 cubic centimeters.
Gravity is a force that exists due to the presence of mass, not a form of matter itself. Gravity is the force of attraction between objects with mass, causing them to pull each other together. It does not have mass or volume on its own.
They're not. Weight is the force produced on a mass by gravity. Volume is totally independent.
Mass is the amount of matter in an object, volume is the amount of space it occupies, and density is the mass of an object per unit volume. Weight is the force acting on an object due to gravity, and it is dependent on the mass and the acceleration due to gravity. They are related but distinct properties of an object.
specific gravity
Weight would not exist w/o gravity. Weight is defined as mass times the force of gravity acting on that weight. Mass is constant, density is constant, and volume is constant, if gravity is the only variable.
To find the volume of the solution, divide the mass by the specific gravity. In this case, 185g ÷ 1.2 = 154.17 ml. So the volume of the solution is 154.17 ml.
To find the specific gravity of frosting, first measure the mass of a known volume of the frosting using a scale. Next, calculate the volume of the frosting by using a graduated cylinder or another measuring device. Specific gravity is then determined by dividing the mass of the frosting by the mass of an equal volume of water at a specific temperature (usually 4°C, where water is densest). The formula can be expressed as: Specific Gravity = (Mass of frosting) / (Mass of equal volume of water).