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0.3 kilo. The prefix "kilo" (symbol k) in the International System of Units (SI) and other systems, which denotes 103, it means one thousand. Therefore, there are 1,000 grams (g) in a kilogram (kg) and 0.001 kilogram equal a gram. Kilograms and grams are units of mass not volume such as liters, gallons, quarts, pints, and cups, and can only be conveted to each other if you have the specific item being measured, as each item has a different density.
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How many km to equal a k?
your mom that's what homey g
What is 2969726895655 plus g plus f plus y plus k plus x equal?
=2969726895655+g+f+k+x
1 + 6 is equal to?
i thin k ate or somthin g
241008 G equals how many K g?
well, 1000 grams is equal to one kilogram. with 241,008 grams, you must simply divide by 1,000 to obtain the number of kilograms. therefore we have 241.008Kg.
What is the mass of 0.806 mol of the element potassium (K) Answer in units of g.?
0,806 mol of the element potassium (K) is equal to 31,51 g.
How many grams of potassium are there in 7.20 mol of potassium atoms?
7.20 moles K x 39.1 g/mole = 281.52 g K = 282 g K (to 3 significant figures)
780 degrees Celsius is equal to how many degrees k?
780 degrees Celsius is equal to a temperature of 1053.15 Kelvin.C to K Formula: K = C + 273.15
5000 grams equals how many kilograms?
5000 g = 5 kgTo convert from g to kg, divide by 1000.
How many is 1.2 k?
1.2k is 1,200 (Note, K is equal to one thousand.)
How many tons equal k ton?
1000
How many k equal 1 mg?
0.000001
How much mechanical energy is required to increase the temperature of 300g of water from 20C to 95C?
You are going to need a value for heat capacity of water, which tells us, how much energy is needed to heat 1 g of water by 1 degree of Kelvin scale (which can be considered the same as Celsius in this case, since we are only looking at temperature difference).For liquid water at this temperature range, the value is:cp = 4.1813 J/(g*K)The amount of mechanical energy needed to heat the water is then:E = ΔT * m * cp , where:E - amount of mechanical energy,m - mass of heated substance (in grams),ΔT - temperature difference [K]; in this case: ΔT = 95 K - 20 K = 75 K,cp - heat capacity [J/(g*K)].After plugging in the numbers, we get:E = 75 K * 300 g * 4.1813 J/g*K = 94 079.25 J,which is about the energy released on impact from 1 ton weight falling 10 meters - and that's assuming there is no dissipation.
