(Some where) 1 tone sharp sand = .7 M3 (Some where) 1 tone sharp sand dry = 1.60 M3 1 tone sharp Sand, wet - 1.92 M3 1 tone sharp sand loose = 1.44 M3 Iftikhar khan
300
100 cm = 1 metre so 100*100*100 = 1,000,000 cm3 = 1 m3 and so 200,000 cm3 = 0.2 m3
33468.75 cm3 = 0.03346875 m3 (divide by 100 three times, once for each axis of the cube).
1 m = 100 cm. So 1 m3 = 1,000,000 cm3. In this case, you divide by a million.
The weight of sand varies depending on its density, but on average, one cubic meter of sand weighs about 1.6 to 1.8 tons. Therefore, 100 cubic meters of sand would weigh approximately 160 to 180 tons.
Sand is a natural earth material and as such can be somewhat variable depending on the composition of the clasts and the degree of compaction. However see below: Sand (dry) - 1.6 tonnes/m3 Sand (loose / poorly compacted) - 1.44 tonnes/m3 Sand (well compacted) - 1.680 tonnes/m3 Sand (wet) - 1.92 tonnes/m3 Sand (wet, packed) - 2.08 tonnes/m3
(Some where) 1 tone sharp sand = .7 M3 (Some where) 1 tone sharp sand dry = 1.60 M3 1 tone sharp Sand, wet - 1.92 M3 1 tone sharp sand loose = 1.44 M3 Iftikhar khan
The weight of sand per cubic meter can vary depending on the density of the sand. Generally, the density of sand is around 1,600 kg/m3 to 1,900 kg/m3. This means that for a cubic meter of sand, the weight can range from 1,600 kg to 1,900 kg.
1 m = 100 cm So 1 m3 = 100*100*100 cm3 = 106 cm3 and 10 m3 = 107 cm3
A general formula: mass (kg) = density (kg/m3) × volume (m3) weight at sea level (lbs) = mass (kg) × 2.20462262 Volumes, 5 gallons: 5 US dry gallons = 0.02202442 m3 5 US liquid gallons = 0.01892706 m3 5 UK gallons = 0.02273045 m3 "5 gallon" bucket (15" h. x 12" w.) = 0.02780000 m3, to rim Densities, approximate: loose dry sand ≈ 1442 kg/m3 dry sand ≈ 1602 kg/m3 wet sand ≈ 1922 kg/m3 quartz sand ≈ 1201 kg/m3 Choose the appropriate volume and density for your application and apply the general formula. m = d × v w = m × 2.20462262 For a typical "5 gallon" bucket, which holds 6.3 US dry / 7.3 US liq. / 6.1 UK gallons to the rim, filled with loose dry sand, you get: 1442 kg/m3 × 0.0278 m3 ≈ 40.09 kg 40.09 kg × 2.20462 ≈ 88.4 lbs Some solutions for loose dry sand: "5 gal." bucket: ~ 88.4 lbs 5 US dry gal.: ~ 70.0 lbs 5 US liq. gal.: ~ 60.2 lbs 5 UK gal.: ~ 72.3 lbs
Assuming that 1 in3 is meant to be 1 m3, the answer is 100*100*100 = 1 million.Assuming that 1 in3 is meant to be 1 m3, the answer is 100*100*100 = 1 million.Assuming that 1 in3 is meant to be 1 m3, the answer is 100*100*100 = 1 million.Assuming that 1 in3 is meant to be 1 m3, the answer is 100*100*100 = 1 million.
As ratio is 1 : 2 : 4, there are 1 + 2 + 4 = 7 parts in totalTherefore 1 part is 1 m3 ÷ 7 = 1/7 m3cement : sand : gravel = 1 : 2 : 4→ 1 x 1/7 m3 : 2 x 1/7 m3 : 4 x 1/7 m3 =1/7 m3 ≈ 0.14 m3 cement;2/7 m3 ≈ 0.29 m3 sand;4/7 m3 ≈ 0.57 m3 gravel[mortar and concrete is mixed by volume.]
1800kg/m3
hmmm. interesting a 4 door m3, well to start a m3 is a totally different car, it only looks like a 235 or 330, the front bumper is a new design and are not interchangeable, lighting one can get to look similar, but if you want a car to look like a m3 but don't got the money for a m3 is to buy the 330ci with the m sports package, this has very close m3 style with nice rims, and interier peaces are close to m3 also, they are also very good cars to drive. good luck.
300
100 cm = 1 metre so 100*100*100 = 1,000,000 cm3 = 1 m3 and so 200,000 cm3 = 0.2 m3