The weight of any material depends on the unit weight of the material. Every material has a unit weight and is in effect the density of it. The calculation is then to work out the volume of material (l x b x h) then multiply it by the unit weight. As an example the unit weight of water is 1000kg/m3. This means 1m3 of water is equal to 1 tonne. Concretes unit weight is 2400kg/m3 so Volume(m3) x 2.4 is equal to weight in tonnes. As a guess I would say topsoil has a unit weight of around 1.8 (just a guess) therefore 1 litre would be 0.001m3 x 1.8 = 0.0018 tonnes = 1.8kg. Hope this helps!
That work out to one meter in 2000 years much lower than the IPCC projections. This is Bryan an i am 12!!
To work this out you need to know the atomic weight of calcium and Avogadros number, which is the number of atoms in a gram atom. Calcium has an atomic weight of 40.078. Therefore a gram ato is 40.078 grams which contains 6.02214129(27)×1023 atoms. 1g of calcium contains 6.02214129(27)×1023 / 40.078 1.502 X 1022
A timber building is more likely to be safe in an earthquake than a brick building, but this is not guaranteed, because it will depend on the structural design and the fixings used. This is because: * Timber has a natural elasticity (it will bend somewhat without breaking) * Timber is lighter than brick and because Force= mass.acceleration, a lighter building does not need to resist as much force as a heavy building in an earthquake. The acceleration loads experienced by a building in an earthquake can be as strong as or stronger than gravity (9.8ms-2), and act in many directions and change rapidly. If you picture a building tossed onto its side, this would represent a similar size force to one of the many that are applied to a building in a large earthquake. For a brick building to be safe in an earthquake, the bricks need to be tied back to an elastic structure (usually timber or steel) that will withstand the earthquake and be capable of carrying the load of the bricks and their accelerating mass during the quake. The inelasticity of the mortar beween the bricks also means that the bricks are likely to separate and fall which makes them unsafe to be near in an earthquake. For these reasons brick is only used as a veneer over structural framing, not as structure, in New Zealand, which is on an earthquke prone fault line on the Pacific Rim.
To calculate the weight of a cloud, you first have to figure out how dense it is. The average density of a cumulus cloud is around half a gram of water per cubic meter. Second, you need to determine how big the cloud is, presumably by measuring its shadow while the sun is above it. A typical cloud is about a kilometer across and roughly cube shaped, meaning it has a volume of one billion cubic meters.Using this formula, scientists have determined that the average cumulus cloud weighs around 1.1 million pounds.
1:6 brick work sand consumption for 1 cubic meter = 9.71 cft 1 cubic meter brick work cement consumption = 1.32 bags 1.32/28.8= .0458 cubic meter .458*6 = .275 .275*35.31 =9.71 cft
500 bricks
1.25 m3
multiplyL xW x H to find the volume of 1 brick. Each measurement should be in cm. 1 cubic meter = (100 cm)3 = 1,000,000 cm3 now divide the volume of 1 brick INTO 1,000,000 that gives the number of bricks.
By a 'kilo' I assume you mean a kilogram, but this is a weight. A cubic meter is a volume. You can't compare them. You have to specify what the material is, to know the volume of a 'kilo', before you can work out how many in a cubic meter
500 number of bricks are required for 1C/m
what is the weight of concrete block work per cubic meter.
By a 'kilo' I assume you mean a kilogram, but this is a weight. A cubic meter is a volume. You can't compare them. You have to specify what the material is, to know the volume of a 'kilo', before you can work out how many in a cubic meter
For 1 meter cube of brick work, you would need approximately 13 bags of cement.
One cubic meter is equivalent to 35.23 cubic feet, or one cubic meter is equivalent to 1.35 cubic yards.
32
1 cubic meter helium lifts 1 Kg weight at sea level.