Because, molicules of iron are compiled together and the molecules of would have distance in them.
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.
It depends on the type of wood that you are using. Most type of woods float on water, therefore are less dense than water, however, in rare cases such as the ironwood (guaiac), its density is 1.17 to 1.33 g cm-3, making it sink in water.
Objects sink or float depending upon their densities. For example wood floats on water because the density of wood is less than that of water, while a piece of iron would sink in water as its density is more than water.
Wood has a lower density than water, and thus the upward buoyant force provided by the water is equal to the weight of the wood submerged. The density of wood less than water, all things are less than water density can float on the water
Wood mostly floats in water because it has a lower density than water. it is NOT lighter than water, it is LESS DENSE. water has a density of 1.0 g/cm cubed. that means wood usually has a density of .99 or less. But, not all wood floats, keep that in mind
the density of water is higher than the density of wood... & so an iron piece sinks & a ton of wood floats...
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 is mass divided by volume. If we assume the mass of the iron and the cotton is the same, you will find that the iron will occupy less space (less volume) than that of the cotton. The value of a mass divided by a small volume is higher than the value of the same mass divided by a larger volume. If we assume the volume of both the iron and the cotton is the same, you will also find that the mass of the iron will be higher than the mass of the cotton. The value of a large mass divided by a volume is larger than the value of a small mass divided by the same volume. In both assumptions, the value of mass divided by volume for the iron is higher than the value of mass divided by volume for the cotton. Since density is mass divided by volume, the density of iron is therefore higher than the density of cotton.
iron is more dense then water and wood is less dense then water. iron sinks because it is heavier then the density of water. wood sinks because woods density is lighter then the density of water.
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.
It depends on the type of wood that you are using. Most type of woods float on water, therefore are less dense than water, however, in rare cases such as the ironwood (guaiac), its density is 1.17 to 1.33 g cm-3, making it sink in water.
Objects sink or float depending upon their densities. For example wood floats on water because the density of wood is less than that of water, while a piece of iron would sink in water as its density is more than water.
It depends how hard you throw it, and at what angle above the horizontal.
iron is stronger than wood, so an iron plough would last longer than a wooden one.
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Wood has a lower density than water, and thus the upward buoyant force provided by the water is equal to the weight of the wood submerged. The density of wood less than water, all things are less than water density can float on the water
Wood has a lower density than water, and thus the upward buoyant force provided by the water is equal to the weight of the wood submerged. The density of wood less than water, all things are less than water density can float on the water