LEFT RIGHT silver (Ag) silver silver magnesium (Mg) copper (Cu) magnesium zinc (Zn) magnesium (Mg) copper (Cu) magnesium zinc (Zn) silver (Ag) VOLTAGE +0.43 +1.53 +3.15 -2.72 -1.62 -3.15 MACROSCOPIC OBSERVATIONS Purple right-side solution and metal warn; left side metal has deposits. Right metal warns away; left side has deposits. Right side metals warns away; left side has deposits. Left side warns away; right side has deposits. Left side metal warns away: right-side has deposits. Left side warns away: right-side has deposits. MICROSCOPIC OBSERVATIONS Left side electrons flow downward, attracting additional Ag atoms to join the surface, while right side electrons travel upward, lonizing and dispersing the metal atoms into the solution. Zinc releases two electrons and passes into the solution as Zn+2, making the electrode negatively charged. Ag+ extracted one electron and deposited it in the electrode, making it positively charged. Mg releases two electrons and passes into the solution as Mg2+, making the electrode negatively charged. Ag lons extract one electron from the electrode and deposited on the electrode, making it positively charged. The left-side electrons travel upwards ionizing and dispering the Mg atoms. Right-side electrons flow downwards attracting additional Cu atoms. The left-side electrons travel upwards lonizing and dispering the Mg atoms into the solution while the right-side electrons flow downward attracting additional In atoms to join the surface. Mg ionizes and drifts into the solution, electrons travel upward, right-side electrons travel downward, attracting new Ag atoms. LEFT SIDE INFERENCES cathode, reduction, Ag+1+le--> Ag0 Reduction Cathode Ag+1+le--> Ago oxidation, cathode, Ag+1+le- ==>Ago Oxidation anode Mg0Mg 2+2- oxidation, anode, Mg0--> Mg+2 +20- Oxidation anode Mg0--> Mg+2+2e- RIGHT SIDE INFERENCES anode, oxidation, CuO->> Cu+2+2e- Oxidation anode Zno--> Zn+2+20- Reduction, anode, Mg 0--> Mg2+ +20- Reduction cathode Cu 2+2e--->Cuo reduction, cathode, Zn+2 +2e---> Zno Reduction cathode Ag 1-le-- Ago
LEFT RIGHT silver (Ag) silver silver magnesium (Mg) copper (Cu) magnesium zinc (Zn) magnesium (Mg) copper (Cu) magnesium zinc (Zn) silver (Ag) VOLTAGE +0.43 +1.53 +3.15 -2.72 -1.62 -3.15 MACROSCOPIC OBSERVATIONS Purple right-side solution and metal warn; left side metal has deposits. Right metal warns away; left side has deposits. Right side metals warns away; left side has deposits. Left side warns away; right side has deposits. Left side metal warns away: right-side has deposits. Left side warns away: right-side has deposits. MICROSCOPIC OBSERVATIONS Left side electrons flow downward, attracting additional Ag atoms to join the surface, while right side electrons travel upward, lonizing and dispersing the metal atoms into the solution. Zinc releases two electrons and passes into the solution as Zn+2, making the electrode negatively charged. Ag+ extracted one electron and deposited it in the electrode, making it positively charged. Mg releases two electrons and passes into the solution as Mg2+, making the electrode negatively charged. Ag lons extract one electron from the electrode and deposited on the electrode, making it positively charged. The left-side electrons travel upwards ionizing and dispering the Mg atoms. Right-side electrons flow downwards attracting additional Cu atoms. The left-side electrons travel upwards lonizing and dispering the Mg atoms into the solution while the right-side electrons flow downward attracting additional In atoms to join the surface. Mg ionizes and drifts into the solution, electrons travel upward, right-side electrons travel downward, attracting new Ag atoms. LEFT SIDE INFERENCES cathode, reduction, Ag+1+le--> Ag0 Reduction Cathode Ag+1+le--> Ago oxidation, cathode, Ag+1+le- ==>Ago Oxidation anode Mg0Mg 2+2- oxidation, anode, Mg0--> Mg+2 +20- Oxidation anode Mg0--> Mg+2+2e- RIGHT SIDE INFERENCES anode, oxidation, CuO->> Cu+2+2e- Oxidation anode Zno--> Zn+2+20- Reduction, anode, Mg 0--> Mg2+ +20- Reduction cathode Cu 2+2e--->Cuo reduction, cathode, Zn+2 +2e---> Zno Reduction cathode Ag 1-le-- Ago
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
Related questions
Question
Write macroscopic observations for zinc and copper.
example attached.
Transcribed Image Text:Types
LEFT
silver
(Ag)
silver
silver
magnesium
(Mg)
magnesium
magnesium
RIGHT
copper
(Cu)
zinc
(Zn)
magnesium
(Mg)
copper
(Cu)
zinc
(Zn)
silver
(Ag)
VOLTAGE
+0.43
+1.53
+3.15
-2.72
-1.62
-3.15
Reactions!
MACROSCOPIC
OBSERVATIONS
Purple right-side solution and
metal warn; left side metal
has deposits.
Right metal warns away;
left side has deposits.
Right side metals warns
away; left side has
deposits.
Left side warns away;
right side has deposits.
Left side metal warns
away: right-side has
deposits.
Left side warns away:
right-side has deposits.
Analysis
MICROSCOPIC
OBSERVATIONS
Left side electrons flow downward, attracting
additional Ag atoms to join the surface, while right
side electrons travel upward, ionizing and
dispersing the metal atoms into the solution.
zinc releases two electrons and passes into the solution as Zn+2,
making the electrode negatively charged. Ag+ extracted one
electron and deposited it in the electrode, making it positively
charged.
Mg releases two electrons and passes into the
solution as Mg2+, making the electrode
negatively charged. Ag+ lons extract one
electron from the electrode and deposited on the
electrode, making it positively charged.
The left-side electrons travel upwards ionizing
and dispering the Mg atoms. Right-side electrons
flow downwards attracting additional Cu atoms.
The left-side electrons travel upwards lonizing and dispering
the Mg atoms into the solution while the right-side electrons
flow downward attracting additional In atoms to join the
surface.
Mg ionizes and drifts into the solution, electrons
travel upward, right-side electrons travel
downward, attracting new Ag atoms.
M
LEFT SIDE
INFERENCES
See Mp
cathode, reduction,
Ag+1+le-
--> Ago
Reduction
Cathode
Ag+1+le---> Ago
oxidation, cathode,
Ag+1+le- ==> Ago
Oxidation
anode
Mg0Mg 2+20-
oxidation, anode,
Mg0 --> Mg+2
+26-
Oxidation anode
Mg0 --> Mg+2+2e-
RIGHT SIDE
INFERENCES
anode, oxidation,
CuO -->
Cu+2+2e-
Oxidation
anode
Zno--> Zn+2+20-
Reduction, anode,
Mg 0--> Mg2+ +2e-
Reduction
cathode
Cu+2+20--->Cuo
reduction,
cathode, Zn+2
+2e---> Zno
Reduction
cathode
Ag+1+1o--- Ago
Transcribed Image Text:GALVANIC/VOLTAIC CELLS
See Molecular Scale
- 500 mL
450
- 100
+0
See Molecular Scale
Experiment Set
Left Beaker
Right Beaker
- 500 mL
<- 450
See Molecular Scale
Zinc (Zn) in Zn(NO3)2 (aq)
- 100
Copper (Cu) in Cu(NO3)2 (aq)
Full Reset
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