63.2 multiplied by 0.79 = 49.928 grams
If it was 63.2ml of water, the mass would be 63.2g, as water's density is 1.
As alcohol is thinner than water (density less than1 ) you would expect it to weigh less than the same volume of water.
Given: d = 0.79g ; m= 100g ; v = ?
Solution:
0.79 g = 100g / v
0.79g v = 100g
v = 126.58
what is the specific gravity of alcohol having a density of 0.79 g/ml
At a density of 0.79 g per (for each) ml:
1 ml weighs 0.79g
⇒ 53 ml weigh 53 x 0.79 g = 41.87 g
density = mass ÷ volume
⇒ mass = density x volume
Density = mass/volume
Mass = Density x volume = (0.79) x (74) = 58.46 grams
83/0.78 =106.41cm3
Specific gravity, also known as relative density of water is 1. Actually density of water is SI system of units is 1000 kg/m3. Relative density of any substance is the ratio of its density to that of water. So mercury having 13600 kg / m3 as density would have 13600/1000 = 13.6 as relative density or specific gravity of mercury
Not necessarily. A vacuum is merely any volume having a density lower than an arbitrary amount.
osmium has the highest density.
I know for fact that having no gravity means that we would all just be suspended in mid air. Having gravity is just like now on earth when we all touch the ground like normal people. These are alike because they both have to do with gravity and they both determine what positions us on earth.
yes of corse
Specific gravity, also known as relative density of water is 1. Actually density of water is SI system of units is 1000 kg/m3. Relative density of any substance is the ratio of its density to that of water. So mercury having 13600 kg / m3 as density would have 13600/1000 = 13.6 as relative density or specific gravity of mercury
Not necessarily. A vacuum is merely any volume having a density lower than an arbitrary amount.
LONG STORY SHORT: ITS BIG. ((: Because it has a lot of mass. The more mass, the more gravity. For a more in depth answer the reason why the sun has so much gravity is because of the density not the mass, mass is different then density, and having so much density in such a small area gives it so much gravity, and if your using this for a science worksheet the sun i composed of about 2 thousand trillion tons of hydrogen and helium.
Liters are volume units and grams are mass or weight units. Except for a substance having the same density or specific gravity as water (1 liter of water having a mass of 1 kilogram) a direct conversion cannot be made. If your question is about converting water from liters to grams, the answer is 1,000.
Density is specific for each substance. Also the measurement is generally simple.
Matter is defined as a physical substance having mass and volume. Because of these two properties, it will also have weight (due to gravity acting on its mass) and density (the ratio of mass to volume). The mass also implies inertia, as energy must be applied to affect the motion of matter. For chemical analysis, the fundamental properties are: INERTIA - resistance to motion due to mass MASS - the amount of matter in an object VOLUME - the amount of space an object takes up WEIGHT - a measure of the pull of gravity on an object DENSITY - mass per unit of volume SPECIFIC GRAVITY - density compared to a standard (water) also SPECIFIC HEAT - energy required to raise the matter's temperature
Since the density of water is 1 MT/m3 Mass = Volume*SpGr So mass = 384.64*0.939 MT = 361.177 MT (to 3 dp)
Density can tell you how "pure" a substance is. Since each substance has a specific density in its "pure" state, having no other substances in its composition, by measuring it density you can tell how pure the mineral or substance is, 99.9% pure gold.
By having mass (matter) it will have gravity.
Masses cause gravity. That's unavoidable; as long as the Sun maintains some of its mass, it will continue having gravity.
A litre is a volumetric measurement and kg (kilogram) is a measurement of weight. Specific gravity is a measure of density. It compares density of elements or material (stuff) to the weight of one kilogram of water. If the material (stuff) in question is less dense (lighter) than water, additional volume of the stuff is needed to equal one kilogram of water. The opposite (meaning less stuff) is needed for heavey stuff. In this case the specific gravity of 79 means the material is 79 times more dense than water so only one 79th of a litre is needed to equal a kilogram of water so (X litres/815 kg = 79; X - 10.3 litres)
No, it's not.Gravity is the force of attraction between objects having mass, where the force on an object is given by the product of the gravitational acceleration and the object's mass. Gravitational acceleration has the units of length per time squared.The density of an object or material is the mass of the object divided by its volume, e.g., water has a density of 1 g per mL. Density has the units of mass per volume.