In terms of metric conversion, 480mg of salt is equal to 0.480g of salt. In terms of molar conversion, 480mg of salt is equal to approximately 0.0082 moles.
On Earth, 1000 mg.
There are 2000 mg in 2 grams of salt, as there are 1000 milligrams in a gram.
500 mg is equivalent to 0.0176 ounces.
40,000 mg is greater than 3 kg. 40,000 mg is equivalent to 40 g, and 3 kg is equivalent to 3,000 g.
Mg(BrO3)2 is magnesium bromate. Yes, it is a salt, but when hydolyzed in water, it will have a pH that is slightly basic. Why? Because it is formed from the reaction of a strong base, Mg(OH)2 and a somewhat weak acid HBrO3. Thus, a solution of this salt will have a pH >7
Its 480 mg of salt
To convert 4 capsules of 480 mg each to grams, first calculate the total milligrams: 4 capsules × 480 mg = 1920 mg. Since there are 1000 milligrams in a gram, divide by 1000: 1920 mg ÷ 1000 = 1.92 grams. Therefore, 4 capsules of 480 mg is equivalent to 1.92 grams.
One teaspoon of salt is approximately equivalent to 5,700 milligrams (mg). This can vary slightly depending on the type of salt and its granule size, but 5,700 mg is a common approximation for table salt.
Doxycycline hyclate is a salt form of doxycycline that typically contains about 87% doxycycline by weight. Therefore, to find the equivalent amount of doxycycline hyclate for 1 mg of doxycycline, you would divide 1 mg by 0.87. This means that approximately 1.15 mg of doxycycline hyclate is equivalent to 1 mg of doxycycline.
2000 mg of salt is equivalent to 2 grams. This amount is roughly equal to one teaspoon of table salt, as one teaspoon typically contains about 2300 mg of sodium. It's important to monitor salt intake, as excessive consumption can lead to health issues such as high blood pressure.
1/4 teaspoon salt = 600 mg sodium 1/2 teaspoon salt = 1,200 mg sodium 3/4 teaspoon salt = 1,800 mg sodium 1 teaspoon salt = 2,300 mg sodium
500 mg of sodium is equivalent to 0.5 gram of sodium, which in turn is equivalent to around 1.27 gram of common table salt (sodium chloride).
this question is not hard to answer, but it does require that one make some assumptions. The simplest answer assumes that the 20% salt solution refers to per cent by mass. Thus: a 20% salt solution is one which contains 20 mg salt for every 100 mg solution where the solution consists of a mixture of 20 mg salt plus 80 mg water. A 35% salt solution would contain 35 mg salt for every 65 mg water. Now, assuming that all the water in 18 mg of a 20% salt solution remains in the final solution we see that 18 mg salt solution x 20 mg salt/100 mg salt solution gives 3.6 mg of salt; thus, there are 18 mg total solution - 3.6 mg salt = 14.4 mg water. So the final salt solution must be one that contains 14.4 mg water and enough salt to make it 35% salt by mass. Mathematically, this is written as Z mg salt/(Z mg + 14.4 mg water) = 35/100 This gives Z = 0.35*(Z + 14.4) or Z = 0.35*Z + 0.35*14.4 which is same as Z = 0.35*Z + 5.04 and 0.65*Z = 5.04 so Z = 5.04/0.65 = 7.75 mg total salt needed. We started with 3.6 mg salt, so we must add 7.75 -3.6 = 4.15 mg salt Check: 7.75 mg salt/(7.75 mg salt + 14.4 mg water) = 0.35 or 35% There you go! --assuming that much salt dissolves that amount of water!
35. Salt is sodium.
Iodized salt contain iodine as potassium iodide or iodate: - the iodine concentration must be 20+/-5 mg/1 kg salt which is equivalent to: - 34+/-8,5 mg potassium iodate or - 26+/-6,5 mg potassium iodide An insufficient daily intake of iodine can lead to thyroid diseases or cretinism.
On Earth, 1000 mg.
is 48/6 equivalent to 480/60 why or why not