KC4H4O6 is the formula of potassium hydrogen tarterat.
It is processed from potassium acid salt of tartaric acid.
Question 1 1 pts Which of the following is the correct formula for potassium hydrogen tartrate?...
D Question 2 2 pts Which of the following is the correct Ksp expression for cream of tartar (potassium hydrogen tartrate)? O Ksp = [KHC4H406]/[K'] [HC4H4061] O Ksp = [K+] [HC_H406'] /[KHC4H406] O Ksp = [K] [HC4H406'] O Ksp = [K*]/[HC4H406']
Question 5 2 pts Which of the following is the correct Ka expression for cream of tartar (potassium hydrogen tartrate)? Ka= [H3O+] [C4H4062-1/[HC4H406- ][ H0] Ka = [H3O+] [C4H4062-1/[HC4H406- O Ka = [HC_H_06')[H3O+] [C_H_062- Ka = [H3O+] [C4H2062-1/[H20]
please briefly explain please :) Question 11 (1 point) Use the table below to answer the question. Acid Formula pH KH PO, 4.2 KHSO 1.4 Potassium dihydrogen phosphate Potassium hydrogen sulfate Potassium hydrogen phthalate Potassium hydrogen tartrate 3.3 KHO HO, KHCHO. 2.6 а Which acid with has the highest number of hydrogen (hydronium) ions in solution? KH2PO4 (Potassium dihydrogen phosphate) b KHSO4 (Potassium hydrogen sulfate) KHC8H404 (Potassium hydrogen phthalate) KHC4H406 (Potassium hydrogen tartrate) 000 d
This experiment has involved the study of the variation of solubility of potassium hydrogen tartrate with ionic strength and also determine its thermodynamic solubility product. The background and procedure are given below as a guide in answering the questions: Figure 1 (above): Background Theory Figure 2 (above); Procedure for handling NaCl + KCl and KCl only KCl Concentration (in M) 0.01 M NaOH Added (in mL) 0 46.2 0.025 34.1 0.05 19.3 0.10 15.5 0.20 8.3 0.30 5.5 NaCl +...
What is the ksp of potassium hydrogen tartrate (in 8g per 100ml distilled water soln)at 22 degrees C?
Write the correct formula for potassium hydrogen phosphite. electron configuration of Au2+ Which of the formulas below represent molecules that have only pure covalent bonds. A. CO2 B. CF4 C. none of the choices are correct D. CCl4 E. CH4
Please help with part A and B I. The formula of the tartrate dianion is O2C (CHOH)2 CO2 Refer to Figure 8-6. In the picture of d carbon (C of the potassium sodium tartrate unit cell you can see the connectivity of oxygen (O) an atoms. a) Draw the "skeleton" of the tartrate dianion below. Add the H atoms to the C, O backbone. b) Draw the Lewis dot structure of the dianion. Show all electrons as dots and charges.
Data and Results Data Sheet 1-Titration Trial 1 Saturated potassium hydrogen tartrate solution volume 25.00 mL NaOH Solution Concentration 0.0167 mol L mL Initial Volume NaOH 0.10 mL Final Volume NaOH 29.69 mL Volume of NaOH added Volume of NaOH added Moles of NaOH added mol Moles of HC,H,O, mol Moles of K* Saturated potassium hydrogen tartrate solution volume Concentration of HC,H,O, mol mol Concentration of K* Kap Enter Data Sheet I Calculations Here 2/11 Calculations Perform the following calculations...
What is the melting point, boiling point, and structure of (-)-1-phenylethylammonium hydrogen (+)-tartrate and (+)-1-phenylethylammonium hydrogen (+)-tartrate?
Asap please correct Question 11 0/2 pts Which of the following are primary functions of potassium? (SELECT ALL THAT APPLY) Acts as the principal intracellular electrolyte Increases blood pressure. Muscle contraction and nerve function. Helps retain sodium and increases calcium excretion.