The student empties a flash and dries it. To the empty flask, she added pieces o
ID: 763075 • Letter: T
Question
The student empties a flash and dries it. To the empty flask, she added pieces of metal until the flask was about 3/4ths of the way full. She weighed the stoppered flask and its metal contents and found that the mass was 144.076 g. She then filled the flask with water, stoppered it, and obtained a total mass of 162.292 g for the flask, stopper, metal, and water. Find the density of the metal. To find the density of the metal we need to know its mass and volume. We can easily obtain its mass by the method of differences. Mass of metal= 144.076g- 33.695 g(which was given to me before)= 110.381g. To determine the volume of metal, we note that the volume of the flask must equal the volume of the metal plus the volume of water in the filled flask containing both metal and water. If we can fin the volume of the water we first calculate its mass. Mass of water= mass of (flask + stopper + metal + water)- mass of (flask + stopper + metal) Mass of water= 162.292g- 144.076g= 18.216 g I ASSUME THE CALCULATIONS ABOVE ARE RIGHT?? NEED HELP FROM HERE ON The volume of water is found from its density. Volume of Water= ????????? cm^3 From the volume of water, we calculate the volume of metal. Volume of metal= volume of flask- volume of water Volume of metal= ?????? cm^3 - ????? cm^3= ???? cm^3 For the mass of and volume of metal, we find the density. Density of metal= ????? g/cm^3Explanation / Answer
PLEASE RATE AND AWARD ME KARMA POINTS IF IT IS HELPFUL FOR YOU he mass density or density of a material is its mass per unit volume. The symbol most often used for density is ? (the lower case Greek letter rho). Mathematically, density is defined as mass divided by volume: where ? is the density, m is the mass, and V is the volume. In some cases (for instance, in the United States oil and gas industry), density is also defined as its weight per unit volume,[1] although this quantity is more properly called specific weight. Different materials usually have different densities, so density is an important concept regarding buoyancy, purity and packaging. Osmium and iridium are the densest known elements at standard conditions for temperature and pressure but not the densest materials.[which?] Less dense fluids float on more dense fluids if they do not mix. This concept can be extended, with some care, to less dense solids floating on more dense fluids. If the average density (including any air below the waterline) of an object is less than water it will float in water and if it is more than water's it will sink in water. In some cases density is expressed as the dimensionless quantities specific gravity or relative density, in which case it is expressed in multiples of the density of some other standard material, usually water or air/gas. (For example, a specific gravity less than one means that the substance floats in water.) The mass density of a material varies with temperature and pressure. (The variance is typically small for solids and liquids and much greater for gasses.) Increasing the pressure on an object decreases the volume of the object and therefore increase its density. Increasing the temperature of a substance (with some exceptions) decreases its density by increasing the volume of that substance. In most materials, heating the bottom of a fluid results in convection of the heat from bottom to top of the fluid due to the decrease of the density of the heated fluid. This causes it to rise relative to more dense unheated material. The reciprocal of the density of a substance is called its specific volume, a representation commonly used in thermodynamics. Density is an intensive property in that increasing the amount of a substance does not increase its density; rather it increases its mass.
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