The price of lithium is approx. 2,5 US $/pound.
Denser than water. The density of Lithium is approxiametely 0.534g/cm3.
To make a 2 molal solution, you would need 2 moles of lithium sulfide per 1000g of water. Since you have 1600g of water, you need 2 x (1600 / 1000) = 3.2 moles of lithium sulfide. To find the grams needed, you would multiply the molar mass of lithium sulfide (45.94 + 32.06) by the number of moles needed (3.2) to get 149.12 grams.
Li atomic mass= 6.941g/mol= 4.9 moles of Li1.00 mol = 6.02 x 1023 atoms4.9 mol Li = 2.95 x 1024 atoms= 3.0 x 1024 atoms
For an element such as lithium, the technically correct term is "gram atomic mass" instead of "mole", and for lithium, the gram atomic mass is about 6.941. Therefore, the answer to the question is (5.48)(6.941) or 37.5 grams, to the justified number of significant digits.
The formula for lithium bromide is LiBr. The compound has a molar mass of 86.845 grams per mole. One of its main uses is as a desiccant.
At the current rate of $300/lb it would cost $66.14.
The density of lithium-6 is approximately 0.53 grams per cubic centimeter.
$40 for 7 grams at http://www.elementsales.com/pl_element_grp1.htm
Denser than water. The density of Lithium is approxiametely 0.534g/cm3.
35 grams of copper will cost $200. Since 14 grams cost $80, we can calculate the cost per gram by dividing $80 by 14 to get the cost per gram. Then, we can multiply the cost per gram by 35 to find the total cost for 35 grams.
The specific gravity of lithium is around 0.534 grams per cubic centimeter, which is quite low compared to other metals.
No, a AA lithium battery has about 0.75 grams of Lithium.
7.0 grams cost $300; divide 300 by 7 to find cost per gram: 300 ÷ 7 = $42.86 per gram.
The solid element that has the lowest density is lithium. Its density is 0.534 grams per cubic centimeters. Lithium is a metal, and it does not occur freely in nature.
It is not a change at all. 79 grams of lithium is a quantity of a substance.
To determine the number of grams of lithium nitrate needed to make 250 grams of lithium sulfate, you need to calculate the molar mass of lithium sulfate and lithium nitrate, then use stoichiometry to find the ratio of lithium nitrate to lithium sulfate. Finally, apply this ratio to find the mass of lithium nitrate needed for the reaction. Lead sulfate is not involved in this calculation as it is not part of the reaction between lithium nitrate and lithium sulfate.
The density of lithium is less than that of water. Lithium has a density of about 0.534 grams per cubic centimeter, while water has a density of about 1 gram per cubic centimeter. This means that lithium would float on water.