Question 3 Lithium carbonate, Li2CO3, is commonly used to treat bipolar disorder. What is the percent by mass of lithium in this compound (to the nearest whole percent)? Mass % =( mass of elmt) x 100 mass of cpd 19% 7% 14% 9% 1275 points Which of the following has the highest boiling point? (Hint: consider the intermolecular forces involved.)

2016年2月16日 · Both of the compounds decompose but thermal stability increases as one moves down the group. The reason is that lithium is small size exhibit a stronger ionic charge than potassium, therefore bonding more covalently with the carbon atom in CO 3 - .

Answer to O e. [1] Br2, CH3CO2H [2] Li2CO3, LiBr, DMF. here the rectant is ketone First reaction of ketone with bromine in acetic acid In this first protonation occurs which shows in first step The. …

Question: Lithium carbonate, Li2CO3, contains 18.8 % lithium and is used in the treatment of mental illnesses such as bipolar disorder. What mass of lithium is present in a 1.34−g dose of lithium carbonate?

Trinity C. asked • 11/26/18 What is the net ionic equation for the reaction between Li2CO3(aq) and HCl(aq).

Question: The solubility product (Ksp) for lithium carbonate (Li2CO3 (s)) is 2.5*10-2 Upon dissolving, Li2CO3 (s) dissociates into Li* and CO32- ions. Use this information for the next three questions. Question 1 (1 pt) Write out the equilibrium expression (e.g., K=...) for the dissociation of lithium carbonate.

Calculate the molar mass for lithium carbonate, Li2CO3, used to treat bipolar disorder. 1) Obtain the molar the molar mass of each element. Li (in g/mol) , C (in g/mol) and O (in g/mol) b) Multiply each molar mass by the number of moles (subscript) in the formula. Grams from 2 moles of Li: Grams from 1 mole of C: Grams from 3 moles of O:

2021年3月30日 · 90 moles of CO2 are captured in the reaction to form Li2CO3. The balanced equation says we'll get 1 mole Li2CO3 for every 1 mole of CO2 consumed. That means 90 moles of Li2CO3 will form over the two days. (90 moles LiCO3)*(75g/mole Li2CO3) = 6750 g LiCO3 formed. That's 6.75 kgof Li2CO3, under the 7.5kg limit, assuming the H2O can be expelled.

Which one is of the following is the correct dissociation equation for Li2CO3? Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on.

Which of the following submicroscopic representations best represents Li2CO3? Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on.