Which cation or cations may be present in a pale blue solution that turns deep blue...
Which cation or cations may be present in a pale blue solution that turns deep blue and forms a white precipitate upon addition of 6 M NH3(aq)?
Homework Answers
Add Answer to:
Which cation or cations may be present in a pale blue solution
that turns deep blue...
You have a solution that may contain up to two of the following 4 cations: Ag+,...
You have a solution that may contain up to two of the following 4 cations: Ag+, Pb2+, Cu2+, Ni2+. The initial solution is clear and blue. Upon adding NaCl, a white precipitate forms. You centrifuge and decant the solution, and heat the portion where the white precipitate is. Heating causes the white precipitate to dissolve. To the supernatant liquid, which is still blue, you add ammonia, resulting in a deep blue color. Which cations are present?
a solution that may contain any of the group three cations. Treatment of the solution with...
a solution that may contain any of the group three cations. Treatment of the solution with clo- in alkaline medium yields a yellow solution and a colored precipitate. The Acidified solution is unaffected by treatment with nh4oh. The colored precipitate dissolves in nitric acid addition; addition of excess nh4oh to this acidic solution produces only a blue solution. Which group 3 ions are present? which are absent? which are in doubt? how would you remove all doubt?
3. A solution that may contain any of the group III cations. Treatment of the solution with CIO i...
3. A solution that may contain any of the group III cations. Treatment of the solution with CIO in alkaline medium yields a yellow solution and a colored precipitate. The acidified solution is unaffected by treatment with NH,OH. The colored precipitate dissolves in nitric acid; addition of excess NH,OH to this acidic solution produces only a blue solution. Which group III ions are present? Which are absent? Which are in doubt? How would you remove all doubt?
3. A solution...
The pH is adjusted to 0.5 and thioacetamide is added to an unknown containing Group 2...
The pH is adjusted to 0.5 and thioacetamide is added to an unknown containing Group 2 cations. A black precipitate is formed, insoluble in NaOH but completely soluble in HNO3. When NH3 is added a white precipitate is forms and the solution turns deep blue. 1. What ion(s) are clearly absent? 2. What ion(s) are clearly present? 3. Write the net ionic equations for all observations
3. A solution that may contain any of the group III cations. Treatment of the solution...
3. A solution that may contain any of the group III cations. Treatment of the solution with CIO in alkaline medium yields a yellow solution and a colored precipitate. The acidified solution is unaffected by treatment with NH,OH. The colored precipitate dissolves in nitric acid; addition of excess NH,OH to this acidic solution produces only a blue solution. Which group III ions are present? Which are absent? Which are in doubt? How would you remove all doubt? 149
the host A Few the ons we should include ALL on the polyes that questo e....
the host A Few the ons we should include ALL on the polyes that questo e. You K.(NH) - 18 x 10 KCNH)) - 21 x 10" KAKOH)) 1110* 1 Forms a precipitate (ppt) upon addition of NaOH. Car Fe 21 Fe a zn 2. Does not form a ppt upon addition of NaOH NHA 3. Forms a blue ppt upon addition of NaOH. Cu 4. Forms a white ppt upon addition of NaOH Zn 5. Forms a brown ppt...
A solution that may contain Cu2+, Bi3+, Sn4+, or Sb3+ ions is treated with thioacetamide in an ac...
A solution that may contain Cu2+, Bi3+, Sn4+, or Sb3+ ions is treated with thioacetamide in an acid medium. The black precipitate that forms is partly soluble in strongly basic solution. The precipitate that remains is soluble in 6 M HNO3 and gives only a white precipitate upon the addition of NH4OH. The basic solution, when acidified, produces, an orange precipitate.. which group 2 ions are present? which are absent? and which are still in doubt? How would you remove...
2. How are the Group I cations first precipitated from solution? 3. Write the net-ionic equation...
2. How are the Group I cations first precipitated from solution? 3. Write the net-ionic equation for the initial precipitation of any one Group I cation from your unknown solution. 4. Lead(II) chromate is used as a yellow pigment in paints. Write the net-ionic equation for its formation in this Experiment during the confirmatory test for lead(II). 5. When ammonia is added to a white precipitate of mercury(I) chloride, the precipitate turns grayish-black. Write the net-ionic equation for what happens,...
1. In testing the stabilities of complex ions of Ni2+, the following steps are performed. 2...
1. In testing the stabilities of complex ions of Ni2+, the following steps are performed. 2 mL of NH3(aq) are added to 2 mL 0.1 M Ni(NO3)2(aq), which contains [Ni(H2O)]2+. The green solution turns to a deep blue solution. Addition of 2 ml of 1 M NaOH(aq) to this blue solution results in the formation of a green precipitate. By using the treatment of the copper complexes in the introduction as a guide, answer the following questions: a. What is...
Each of the observations listed was made on a different solution. Given the observation, state which...
Each of the observations listed was made on a different solution. Given the observation, state which ion studied in this experiment is present. If the test is not definitive, indicate that with a question mark. a. Addition of 6 M NaOH and Al to the solution produces a vapor that turns red litmus blue. Ion present: b. Addition of 6 M HCI produces a vapor with an acrid odor. Ion present: c. Addition of 6 M HNO_3 produces an effervescence....
3. A solution that may contain any of the group III cations. Treatment of the solution with CIO in alkaline medium yields a yellow solution and a colored precipitate. The acidified solution is unaffected by treatment with NH,OH. The colored precipitate dissolves in nitric acid; addition of excess NH,OH to this acidic solution produces only a blue solution. Which group III ions are present? Which are absent? Which are in doubt? How would you remove all doubt?
3. A solution...
3. A solution that may contain any of the group III cations. Treatment of the solution with CIO in alkaline medium yields a yellow solution and a colored precipitate. The acidified solution is unaffected by treatment with NH,OH. The colored precipitate dissolves in nitric acid; addition of excess NH,OH to this acidic solution produces only a blue solution. Which group III ions are present? Which are absent? Which are in doubt? How would you remove all doubt? 149
the host A Few the ons we should include ALL on the polyes that questo e. You K.(NH) - 18 x 10 KCNH)) - 21 x 10" KAKOH)) 1110* 1 Forms a precipitate (ppt) upon addition of NaOH. Car Fe 21 Fe a zn 2. Does not form a ppt upon addition of NaOH NHA 3. Forms a blue ppt upon addition of NaOH. Cu 4. Forms a white ppt upon addition of NaOH Zn 5. Forms a brown ppt...
2. How are the Group I cations first precipitated from solution? 3. Write the net-ionic equation for the initial precipitation of any one Group I cation from your unknown solution. 4. Lead(II) chromate is used as a yellow pigment in paints. Write the net-ionic equation for its formation in this Experiment during the confirmatory test for lead(II). 5. When ammonia is added to a white precipitate of mercury(I) chloride, the precipitate turns grayish-black. Write the net-ionic equation for what happens,...
1. In testing the stabilities of complex ions of Ni2+, the following steps are performed. 2 mL of NH3(aq) are added to 2 mL 0.1 M Ni(NO3)2(aq), which contains [Ni(H2O)]2+. The green solution turns to a deep blue solution. Addition of 2 ml of 1 M NaOH(aq) to this blue solution results in the formation of a green precipitate. By using the treatment of the copper complexes in the introduction as a guide, answer the following questions: a. What is...
Each of the observations listed was made on a different solution. Given the observation, state which ion studied in this experiment is present. If the test is not definitive, indicate that with a question mark. a. Addition of 6 M NaOH and Al to the solution produces a vapor that turns red litmus blue. Ion present: b. Addition of 6 M HCI produces a vapor with an acrid odor. Ion present: c. Addition of 6 M HNO_3 produces an effervescence....
Most questions answered within 3 hours.
-
MCL 445.111 et seq. deals with Home Solicitation Sales.
MCL stands for Michigan Compiled Laws which...
asked 6 minutes ago -
Which of the following items may not create an NOL?
a.
sole proprietorship loss
b.
personal...
asked 11 minutes ago -
A hypothetical solution forms between a solid and a liquid. The
values of the thermodynamic quantities...
asked 10 minutes ago -
when 2053 j of heat is added to 46.3 g of hexane C6H14 the
temperature increases...
asked 13 minutes ago -
a)An ideal heat pump is being considered for use in heating an
environment with a temperature...
asked 13 minutes ago -
.
Convert the following pairs of voltage and current waveforms to
phasor form. Each pair of...
asked 14 minutes ago -
I need new and unique answers, please. (Use your own words,
don't copy and paste), Please...
asked 16 minutes ago -
A 6.5 cm diameter ball has a terminal speed of 22 m/s. What is
the ball's...
asked 28 minutes ago -
Name two areas of the human body with the highest concentration
of lymph nodes and speculate...
asked 32 minutes ago -
Angel Corporation has $10,000,000 of
8.0% 25 year bonds dated May 1, 2018 with interest payable...
asked 1 hour ago -
7.
________ involves individuals trading goods they already have or
providing services in exchange for something...
asked 1 hour ago -
Share your research problem. What databases did you search as
you gathered evidence to support your...
asked 1 hour ago