Aluminum: 2700 kg/cu. m
Teak Wood: 630 - 720 kg/cu. m
Relative density, also known as specific gravity, is the ratio of the density of a substance to the density of a reference substance. For aluminum, its relative density is approximately 2.7, meaning it is 2.7 times denser than water.
The density of aluminum alloy LM25 is approximately 2.72 g/cm³.
The density of a wood chip can vary depending on the type of wood and the specific size and moisture content of the chip. On average, the density of wood chips ranges from 10 to 20 pounds per cubic foot.
Stainless steel is heavier then aluminium.
To find the weight of the aluminium, we need 2 things. The density and volume. You've given the dimensions of the aluminium so we can easily find the volume. We just need the density. According to wikipedia's article on aluminium, the density of aluminium at room temperature is 2.70gcm-3So all that's left to find is the volume.Firstly, convert everything into cm. Therefore, we can rewrite your dimensions as 100cm x 100cm x 0.1cm.100cm x 100cm x 0.1cm = 1000cm3So 1000cm3 is our volumeNow that we know the volume of the aluminium, we can multiply it by the density. So:1000cm3 x 2.70gcm-3 = 2700g or 2.7kgNOTE: The density of aluminium can vary depending on the type of aluminium you are talking about and hence affect the weight. I took wikipedia's value. It could be slightly different if you are say for example referring to aluminium foil.Hope that helps.Jamz159
The density of teak wood is typically around 660-720 kg/m³, making it a dense hardwood known for its durability and resistance to decay.
The botanical Name of Teak wood is "Techtona grandis"
one is pine and one is teak....
Teak is a hard wood.
Coat it with teak oil
Teak, or cedar
Brazilian teak is made of wood. Brazilian teak is a type of wood commonly used for wood floors, decking, and many other things which aren't as common.
Teak
Teak Wood - 1913 was released on: USA: 30 June 1913
Actually, boats of any size can benefit from teak wood.
The Poisson's ratio of teak wood typically ranges from about 0.3 to 0.4. This ratio indicates the relationship between the longitudinal strain and the lateral strain experienced by the wood when subjected to stress. Variations in the value can occur due to factors like moisture content, density, and the specific growth conditions of the wood.
teak wood