0.5 grammes per millilitre or 500 milligrammes per millilitre
that is
0.5g/ml or 500mg/ml
E= MC2 means that the amount of energy in any matter is equal to the mass of the matter times the speed of light squared. for example, let's say I have an object that has a mass of, say, ten grams. the speed of light is 299,792,458 meters per second. Square that and you have 89,875,517,873,681,760. multiply that by the mass of the object (10g) and you get 898,755,178,736,817,600. energy is measured in joules, so the energy of an object that has a mass of 10g is 898,755,178,736,817,600 joules.
Mass of ten 12 kilograms = 10*12 = 120 kilograms
[object Object]
Volume of a sphere = 4/3*pi*radius3
Grams
The density of the object is 0.5 g/mL
Density = 0.8787 units of density measured in some units of mass and some units of volume Volume = 0.1300 units of volume Mass = Volume*Density adjusted for any conversion factor for differences in the units used for mass and volume - none of which have been specified.
Capacity is another word for volume, which is the amount of space occupied by an object. Both mass and volume are extensive attributes of an object; that is, both depend upon the amount of stuff you have. Mass and capacity are independent of each other. A more massive (heavier) object made of a certain substance -- think gold -- may occupy far less space than a less massive (lighter) one made from a different substance -- think Styrofoam. But if you have objects made of the same substance, then a relationship between the two attributes can be established. The ratio of a substance's mass to its volume is called its mass density. The formula is simple: P = m/v, where P (the Greek letter rho) is the density. For example, if you have a ten kilograms of stuff and it occupies two cubic meters (of space), its mass density is five kilograms per cubic meter (kg/m3). So, to calculate mass density, divide an object's mass by its volume. Further, if you know an object's mass density and its volume, you can calculate its mass, and if you know an object's mass density and its mass, you can calculate its volume.
The mass of an object (or its weight) has nothing to do with its ability to float ...consider feathers, rocks, people, and battleships.The determining quantity is the object's density, which is the ratio of its massto its volume.
Density = (mass) / (volume) = 27/10 = 2.7 gm/cm3 .
Mass and CapacityCapacity is another word for volume, which is the amount of space occupied by an object. Both mass and volume are extensive attributes of an object; that is, both depend upon the amount of stuff you have. Mass and capacity are independent of each other. A more massive (heavier) object made of a certain substance -- think gold -- may occupy far less space than a less massive (lighter) one made from a different substance -- think Styrofoam.But if you have objects made of the same substance, then a relationship between the two attributes can be established. The ratio of a substance's mass to its volume is called its mass density. The formula is simple: P = m/v, where P (the Greek letter rho) is the density. For example, if you have a ten kilograms of stuff and it occupies two cubic meters (of space), its mass density is five kilograms per cubic meter (kg/m3).So, to calculate mass density, divide an object's mass by its volume. Further, if you know an object's mass density and its volume, you can calculate its mass, and if you know an object's mass density and its mass, you can calculate its volume.Read More At: http://en.wikipedia.org/wiki/United_States_customary_unitsAnswers supplied by: Frindaddy(the old answer was just this: hhwabwc tofu 7seg7 whsf)
In a gas, for a given amount of matter, density absolutely depends on volume. For liquids and solids, they occupy given volumes, and it is necessary extraordinarily strong compressions to induce even a modest change in volume. However, solids and liquids are somewhat susceptible to temperature and density does depend slightly on it.
I assume they have different densities, i.e., are made up of different materials. Same volume does NOT mean same mass. The relationship is: mass = volume x density
No. A litre is a unit of volume a gram is a unit of mass. You would need to know the exact density of the wine to know its mass.
Density would be reduced. Density is a measure of the mass per unit volume. For example, 10 particles per cubic mL. If you made the vollume bigger but kept the mass the same, there would be more room for the ten particles to spread out, they'd be further away from each other so the density would be less.
For solids that are not soluble or reactive in/to water.Density = Mass (g) / Volume (mL)first find the weight of the solid in grams on a scale. (Mass)second fill a beaker or other liquid measuring apparatus, large enough to hold the solid, with water (DI is best)third take note of the amount of liquid in the container (preferably in mL)forth fully submerge the solid in the liquid and note the new amount of liquid in the container.now subtract the first amount of liquid from the second. this will give the volume of the object (Volume)Density = Mass/Volume D= M/V D= g/mL
Density cannot be measured; it can only be calculated by the formula: density = mass/volumeHydrometerPersonally the only intruments you need is a formula, wieghing machiene and the knowledge of the area. Does this help?There is no real "Instrument" to measure density, but there is a way to find out. First you need a triple beam balance, to measure the mass of the object. After you find out the mass, you need to find the volume, height X width X length, whitch will equal the volume, after that, you need to divide mass, by the volume, then BOOM! you get you answer to density.NOTE: This is off the top of my mind, I did do a little "refreashing" but I believe it to be right. IF - Only IF I'm wrong, sorry! But I do believe that I am right.There is no real "Instrument" to measure density, but there is a way to find out. First you need a triple beam balance, to measure the mass of the object. After you find out the mass, you need to find the volume, height X width X length, whitch will equal the volume, after that, you need to divide mass, by the volume, then BOOM! you get you answer to density.NOTE: This is off the top of my mind, I did do a little "refreashing" but I believe it to be right. IF - Only IF I'm wrong, sorry! But I do believe that I am right.The answer to What instruments do u use to measure density is balance and gradulated cylinderDensity is the mass of a substance in a single UNIT of volume Usually GRAM per CUBIC CENTIMETRE. You need a container which has a volume of exactly 1cc (cubic centimetre) or a lump of the solid which has been cut to measure 1 cm on all edges (a centimeter cube) now you need weighing Scales to find out how much the Cubic cm. weighs. Result is written thus: e.g. 56 gm/cc. Or lb/ ft cubes (pound per cubic foot) you may prefer to have a result in lb/ inch cubed.i believe you use a triple scale balance beam and a graduated cylinder2. Density is defined as the mass per unit volume.To calculate density, we will need to weigh our specimen, and ten to measure its volume.For that we will need a mass balance or scale; and a measuring stick of appropriate size.If your sample is of inconvenient shape, then you can determine its volume by immersion in a suitable liquid.1. The tools you would use to measure density are measurement , and water displacementDensity is calculated as mass over volume"Densitometere" is the device that measures density.