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Complete the half-reactions for the cell shown, and show the shorthand notation for the cell. The...
II Complete the half-reactions for the cell shown, and show the shorthand notation for the cell. The electrode on the left is the anode, and the one on the right is the cathode. 0 |Anode half-reaction: OD PbCl, (s) Pb(s) +201 – Cathode half-reaction: 2.AgCI() 2€ - PbCl,(s) KCl(aq) [ 285(0) AgCl(s) KCl(aq) 2 AgCl(s) Shorthand notation: Ag(s) | Pb(s) PbCl,(s) C1- (aq)] [c1-(aq)] | AgCl(s)) | 2 Ag(s) Answer Bank 2498) Ag(e) PbCly(@) Pb(8) 2.AgCI() CI+(ag) AgCl(s)
Attempt 2 Complete the half-reactions for the cell shown, and show the shorthand notation for the cell. The electrode on the left is the anode, and the one on the right is the cathode. Pb Anode half-reaction: Ag() +20 = A Ag(s) + 2e Cathode half-reaction: Agla + 2e Ag(s) + 2 CI PCL KC) AgCl) KCMag) Shorthand notation: Pb(s) PECI() Cr(4) Cl(aq) ACC) AC Answer Bank 2 AgCl) Cl(aq) Ag(s) 2 ARCO AgCl) PC1,() Pb(s)
Complete the half-reactions for the cell shown, and show the correct shorthand notation for the cell. The electrode on the left is the anode, and the one on the right is the cathode. Anode half-reaction: +20H = D. +2 Cathode half-reaction: ********* 2 2 *****720H Shorthand notation: Cu(OH)2(s)- bcccc -C(OH)2(s) Answer Bank KOH(aq) CO(OH),(s) Co(s) KOH(aq) Cu(s) Cu(OH),(s)
Question 14 of 31) Complete the half-reactions for the cell shown, and show the correct shorthand notation for the cell The electrode on the left is the anode, and the one on the right is the cathode. Anode half-reaction: +2e Cathode half-reaction: 2 OH Shorthand notation: Shorthand notation: Answer Bank KOH(aq)) (Cu(OH)2(s)) (Ni(s) Ni(OH)2(s), cu(s) Attempt 3 Cu Ni Cu(OH)2(s) Ni(OH)2(s) KOH(aq) Attempt 3 for 0 Cu Ni Cu(OH)2(s)-- 9:31 PM 5/8/2019
Complete the two reduction half reactions for the cell shown at the right, and show the line notation for the cell by dragging labels to the correct position. (The electrode on the left is the anode, and the one on the right is the cathode.) Anode half-reaction: +2e^- equivalent 2CL^- Cathode half-reaction: +2e^- equivalent 2CL^- Line notation:
Write the half-reactions as they occur at each electrode and the net cell reaction for this electrochemical cell containing copper and silver: Cu(s)|Cu2 (aq)||Ag (aq)|Ag(s) Anode? Cathode? Net cell reaction?
6. Consider an electrochemical cell constructed from the following half cells, linked by an external cir- cuit and by a KCl salt bridge. • an Als) electrode in 1.0 MAINO:)solution . a Pb(s) electrode in 1.0 MPb(NO3), solution 1. Which is oxidized? A. AI B. A C. Pь D. Pb? 2. Which is the half reaction at the anode? A. B. C. D. Pb() Pb(aa) +2e A1) Al (aq) +3e. Pb(aq) + 2e →Pb() Al (aa) +3e + Al(s) 3....
A voltaic cell is constructed in which the anode is a Ag Ag half cell and the cathode is a CI Cl2 half cell. The half-cell compartments are connected by a salt bridge. (Use the lowest possible coefficients. Use the pull-down boxes to specify states such as (aq) or (s). If a box is not needed, leave it blank.) The anode reaction is: The cathode reaction is: The net cell reaction is: the Ag Ag electrode. |the CIICl2 electrode In...
Write the half-reactions as they occur at each electrode and the net cell reaction for this electrochemical cell containing indium and cadmiunm anode: In (aa)+3eInls) cathode: Cd (aq)+2e cals) net cell reaction:21n (aq+3Cdls)2lnls)+3cd (aq)
Consider the galvanic cell that uses the reaction 2 Ag^+ (aq) + Cu(s) rightarrow Cu^2+ (aq) + 2 Ag (s) Clearly sketch the experimental set-up, write down the anode and cathode half-reactions, and give the shorthand notation for the cell.