Operations on wastewater from the processing of sugar beets have shown ... or~er of 10000 Kg COD per day will, therefore, produce the order of 1000 therms of energy per day while, ... a by product of many types of food processing activities.
2.26 kilos. The actual conversion of 1 kilogram is equal to 2.204622622 pounds. For everyday use, rounding to 2.2 should be enough. One pound is 0.45359237 kilogram, or 0.45 kg for everyday use.
20mg per ml is greater than 2.5mg per kg 20mg per ml is greater 20mg per ml is greater
brass per Kg
2.2046... pounds per kilogram so 0.45359... kilograms per pound
"kg/hr" means "kilograms per hour" and "scfm" means "standard cubic feet per minute"Since the units are not compatible, we cant convert to that unit. The time units are consistent, but "kg" and "scf" aren't. "kg" measures mass while "scf" measures volume.Another way to prove this is:"kg/hr" measures mass flow while "scfm" measures volume flow.
3 kg of sugar at $1.50 per kg would cost $4.50 in total.
BOD (biochemical oxygen demand) for sugar is typically low since it is easily consumed by microorganisms, while COD (chemical oxygen demand) is usually used to estimate the amount of organic pollutants in water. However, the specific BOD and COD values for 1 kg of sugar dissolved in water would depend on factors like temperature, microbial activity, and the presence of other substances in the water.
That is 200 teaspoons.
That is 4 cups.
There are approximately 0.907 kg of sugar in 2 lbs.
Rs 51 per kg
i think it should be 18 kg per-capita sugar consumption in india.
There are approximately 5,000 teaspoons of sugar in 2.5 kg. This is based on the fact that 1 kilogram of granulated sugar is roughly equivalent to 2,000 teaspoons. Therefore, multiplying 2.5 kg by 2,000 teaspoons per kilogram gives you 5,000 teaspoons.
it cost 92 rupees ...
To determine how many 0.25-kg bags can be filled from a 50-kg bag of sugar, divide the total weight of the sugar by the weight of each smaller bag. This calculation is as follows: 50 kg ÷ 0.25 kg = 200. Therefore, you can fill 200 bags of 0.25 kg each from a 50-kg bag of sugar.
Let the original price per kg be Rs x. At this price, the purchaser can buy (100/80)*5 = 6.25 kg of sugar. Since they can now buy 5 kg more at the reduced price, they can buy a total of 6.25 + 5 = 11.25 kg at the reduced price. Therefore, the reduced price per kg is Rs Rs (5/11.25).
Last year sugar cost about $2 per kg