Density = mass(in grams)/volume ( volume in centimeters cubed. cc )
9.6 kilograms = 9600 grams
15 cm^3 = 3375 cc
Density = 9600 grams/3375 cc
= 2.84 grams/cubic centimeters ( or milliliters)
( real density of iron is 7.86 g/ml )
The density is 7.8 grams per cm^3.
Volume = 10 cm*10 cm*10 cm = 1000 cm3
Answer: That probably would depend on the type of wood (e.g. ironwood vs balsa.?Answer: No wood is as heavy as iron. Iron would be heavier. Iron has a density of about 8 gram per cubic centimeter; would is usually lighter than water (density less than 1), but some woods are a little heavier than water.
Formula for sphere volume: 4/3πr³ Plug in 18 for r; the volume is 24429 cm³. Density of iron: 7850 kg/m³ 24429 cm³ • 7850 kg/m³ = 191.76765 kg
Hard to give a full answer with that density. It may be an alloy. Does it resemble copper? Copper is 8.92 but it may be Brass which ranges from 8.4-8.7 or Bronze which has a wider range of 8-9g/cubic centimeter. Steel is also in the 7.7-8.1 area and Iron at 7.86.
The iron boat is an "empty shell" with air filled space inside, reducing its density compared to the iron cube which is iron all the way through.
15 in cube = 3375 cu in, 5 in cube = 125 cu in, 24 of those = 3000 cu in, so the large cube weighs about one eighth (12½%) more.
That depends on the density of the material in the cube. It would be different if, say, the cube were made of ice, iron, or gold.
just give me the answer
7.86 grams/cm3===========
To determine the mass of Iron, its density is required. The formula used is Volume x Density = Mass. Assuming the Iron is pure and in solid state with a density of approximately 7.87g/cm3 at room temperature, its mass is around 51.2g.
The wood is "lighter" (weighs less; has less mass) than the iron because of it's density. Iron has a greater density than wood, and density is defined as mass/volume, so having the same volume (size), the iron will have a greater mass.
Density isn't a property of the size of the material. rather, it's a property of the matter itself. In other words, it doesn't matter if you have 1 billion microscopic cubes of iron or a 40,000 ton cube of iron... It's all iron, so it all has the same density.
Depends what metal. If I might add to the above, you cannot calculate the density of a substance without knowing its mass (weight) and its volume, since density is mass per unit volume. On the other hand, if you know the type of metal, and that it is pure, you can simply look up the density in a table since the density of all substances is constant for that substance, regardless of the weight or volume of the sample.
Iron is magnetic, lead is not.
The Density of Iron is 7.874 g/cm^3. SO ...2000g/7.874g/cm^3 = 254 cm^3
Density is a weight per unit volume calculation. There could be different alloys or casting methods with subtle differences in density, or temperature variations in expansion and density. However: Every cubic centimeter of lead weighs 11.34 grams. Every cubic centimeter of iron weighs 7.86 grams. Thus, the density of lead (11.34 g/cc) is greater than iron (7.86 g/cc). This is independent of the actual weight and volume of the sample.