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SATL - CUPPER CHEMISTRY. BY. &. LAGOWSKI,J.J. FAHMY A.F.M. HCl. H 2 SO 4. HNO 3. NaOH. CuSO 4. Cu. Cu 2 O. CuO. Cu(OH) 2. CuCl 2. CuCO 3. Cu(NO 3 ) 2. Fe. 13. 7. 10. 12. 8. 9. 11. 6. 3. 4. 5. 2. 1. Lab - 4. You have the following chemicals in your (Lab-4):. - PowerPoint PPT Presentation
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SATL - CUPPER CHEMISTRY
FAHMY A.F.M.
BY
LAGOWSKI,J.J.&
Lab - 4 Lab - 4
You have the following chemicals in your (Lab-4):
1 2
10
3 4 5
8 9
NaOHNaOHHNO3HNO3H2SO4
H2SO4HClHCl
Cu(OH)2Cu(OH)2CuOCuOCu2OCu2OCuCu
CuSO4CuSO4
6
CuCl2CuCl2
FeFeCu(NO3)2Cu(NO3)2CuCO3
CuCO3
1311 12
7
Answer the following questions (1 13)
Q2) Use the following quadrilateral diagrams to construct the clockwise chemical relations between (Lab-4) chemicals.
H2SO4
conc. / heat
Cu(OH)2Cu(OH)2
CuSO4CuSO4
CuOCuO
CuCu
heat
H2 / red. NaOH
HCl/ )O)
heat Cu(OH)2Cu(OH)2
CuCl2CuCl2
CuOCuO
CuCu
H2 / red. NaOH
HNO3
conc.
Cu(OH)2Cu(OH)2
Cu(NO3)2Cu(NO3)2
CuOCuO
CuCu
heat
H2 / red. NaOH
(O) /heat
H2SO4 CuOCuO
Cu2OCu2O
CuSO4CuSO4
CuCu
(Fe) heat / (O)
A2)
Q3) Use the following pentagonal diagrams to construct the clockwise chemical relations between the )Lab-4) chemicals
NaOH
H2SO4
Cu(NO3)2Cu(NO3)2
CuSO4CuSO4
CuCu
Cu(OH)2Cu(OH)2
CuOCuO
heat
conc. HNO3
electrolysis
NaOH
H2SO4
CuCl2CuCl2
CuSO4CuSO4
CuCu
Cu(OH)2Cu(OH)2
CuOCuO
heat
dil. HCl / O heat
electrolysis
A3)
Q4) Use the following hexagonal diagrams to construct the chemical clockwise chemical relations between (Lab‑ 4-) chemicals.
CuCO3CuCO3
CuOCuO
CuSO4CuSO4
Cu2OCu2O
CuCl2CuCl2CuCu
heat )O)
H2SO4
HClheat
)O)
Fe Na2CO3
A4)
Q5) Use the following triangular diagrams to construct anticlockwise chemical relations between some of (Lab‑4) chemicals.
HNO3
conc.Cu(NO3)2Cu(NO3)2CuCu
CuOCuO
heatred. / H2
NaCO3 CuCO3CuCO3CuCl2
CuCl2
CuOCuO
HCl heat
A5)
Q6) Draw the maximum chemical relations between (Lab‑4) chemicals in Four quadrilteral diagrams, then give these relations in a list.
H2SO4 CuOCuO
Cu2OCu2O
CuSO4CuSO4
CuCu )O)heat
)O)heat
)O)heat
Fe
A6-1)
Cu Cu2O CuO CuSO4
Cu CuO CuSO4
Cu Cu2O CuO
heat Cu(OH)2Cu(OH)2
CuSO4CuSO4
CuOCuO
CuCu conc.H2SO4
NaOHH2 / red. H2SO4
A6-2)
Cu CuSO4 Cu)OH)2 CuO
CuSO4 Cu)OH)2 CuO
CuO Cu CuSO4
Cu CuCl2 Cu)OH)2 CuO
CuO CuCl2 Cu)OH)2
CuO Cu CuCl2
heat Cu(OH)2Cu(OH)2
CuCl2CuCl2
CuOCuO
CuCu HCl (O)
NaOHHC lH2 / red.
A6-3)
A6-4)
heat Cu(OH)2Cu(OH)2
Cu(NO3)2Cu(NO3)2
CuOCuO
CuCu HNO3
conc.
NaOHred. / H2 HNO3
Cu Cu)NO3)2 Cu)OH)2 CuO
CuO Cu)NO3)2 Cu)OH)2
CuO Cu Cu)NO3)2
Q7) Use the following quadrilateral diagrams to construct the possible reversible chemical relations between your (Lab-4) chemicals.
heatCu(OH)2Cu(OH)2
Cu(NO3)2Cu(NO3)2
CuOCuO
CuCu
H2 / red
O / heat
conc.HNO3
NaOH
A7) (O) /heat
CuOCuO
Cu2OCu2O
CuSO4CuSO4
CuCu
H2SO4
Fe
conc. H2SO4
(O) / heat
heat1100C
conc.
H2SO4 HNO3
heat
heat (O)
NaOH
H2SO4
Cu(NO3)2Cu(NO3)2
CuSO4CuSO4
CuCu
Cu(OH)2Cu(OH)2
CuOCuO
conc. HNO3
Fe
NaOH
Q8) Draw the maximum chemical relations between your (Lab‑4) chemicals in two pentagonal diagrams. Then give these relations in a List:
Cu Cu)NO3)2 Cu)OH)2 CuO CuSO4
Cu Cu)NO3)2 CuO CuSO4
CuSO4 Cu Cu)NO3)2 Cu)OH)2
Cu)NO3)2 Cu)OH)2 CuO CuSO4
Cu Cu)NO3)2 Cu)OH)2 CuO
CuO CuSO4 Cu)OH)2
Cu Cu)NO3)2 CuSO4
Cu CuO CuSO4
Cu)NO3)2 CuSO4 Cu)OH)2
Cu Cu)NO3)2 CuO
Cu)NO3)2 Cu)OH)2 CuO
conc.
H2SO4
HCl
heat (O)
heat
NaOH
H2SO4
CuCl2CuCl2
CuSO4CuSO4
CuCu
Cu(OH)2Cu(OH)2
CuOCuO
HCl (O)
Fe
NaOH
A8-b)
Cu CuCl2 Cu)OH)2 CuO CuSO4
CuCl2 Cu)OH)2 CuO CuSO4
CuO CuSO4 Cu CuCl2
CuSO4 Cu CuCl2 Cu)OH)2
CuSO4 Cu CuCl2 Cu)OH)2
CuCl2 CuSO4 Cu
Cu CuO CuSO4
CuSO4 Cu)OH)2 CuO
CuCl2 CuSO4 Cu)OH)2
CuO CuCl2 CuSO4
Cu CuO CuCl2
Q9) Draw the maximum chemical relations between your (Lab‑4) chemicals in hexagonal diagram, then give these relations in a list.
H2SO4
heat
H2SO4
H2SO4
HCl
Na2CO3
)O)heat
Cu2OCu2O
CuSO4CuSO4
CuCu CuCl2CuCl2
CuOCuO
CuCO3CuCO3
)O / )heat)O / )heat
HCl (O)
Fe
)A9)
Cu2O CuO CuCl2 CuCO3 CuSO4
CuCO3 CuSO4 Cu Cu2O CuO
Cu Cu2O CuO CuCl2 CuCO3 CuSO4
CuO CuCl2 CuCO3 CuSO4
CuCO3 CuSO4 Cu CuO
Cu CuCl2 CuCO3 CuSO4
Cu Cu2O CuO CuCl2
Cu Cu2O CuO CuSO4
Cu CuO Cu Cl2 CuCO3 CuSO4
Cu Cu2O CuO
CuCO3 CuO CuSO4
Cu2O CuO CuSO4
Cu CuO CuSO4
CuO CuCl2 CuCO3
Cu Cu2O CuSO4
Q10) From (Lab‑4) chemicals: Complete the following triangular chemical relation diagrams.
……… ……………………
Cu(OH)2Cu(OH)2
……… ………
……… ……………………
CuOCuO
……… ………
conc.HNO3
CuCuCu(NO3)2Cu(NO3)2
CuOCuO
H2 / red.heat
HNO3 CuOCuOCu(NO3)2Cu(NO3)2
Cu(OH)2Cu(OH)2
heatNaOH
A10)
Q11) From )Lab‑4) chemicals:Complete the following quadrilateral diagrams.
………
…………………
CuCl2CuCl2
CuOCuO
…………
………………
………
…………………
CuSO4CuSO4
CuOCuO
…………
………………
heat
conc.H2SO4 / heat
Cu(OH)2Cu(OH)2
CuSO4CuSO4
CuOCuO
CuCu
NaOHH2 / red.
HCl / O
Cu(OH)2Cu(OH)2
CuCl2CuCl2
CuOCuO
CuCu
NaOHH2 / red.
heat
A11)
Q12) Maximize the above quadrilateral chemical relations
HCl (O)
Cu(OH)2Cu(OH)2
CuCl2CuCl2
CuOCuO
CuCu
NaOHred. / H2
heat
HCl
conc. H2SO4
heat
Cu(OH)2Cu(OH)2
CuSO4CuSO4
CuOCuO
CuCu
NaOHred. / H2
heat
H2SO4
Q13) From )Lab‑4) chemicals: Complete the following pentagonal clockwise chemical relation diagram.
………
………
…………
…………
CuCu
…………
CuOCuO
………
………
………
NaOH
H2SO4
Cu(NO3)2Cu(NO3)2
CuSO4CuSO4
CuCu
Cu(OH)2Cu(OH)2
CuOCuO
heat
conc. HNO3
Fe
A13)
Q14) From (Lab‑4) chemicals: Complete the following hexagonal clockwise chemical relation diagram.
…………
…………
…………
…………
CuCl2CuCl2CuCu
……… ………
………
………
………
………
CuCO3CuCO3
CuOCuO
CuSO4CuSO4
Cu2OCu2O
CuCl2CuCl2CuCu
heat)O)
H2SO4
Na2CO3
)O / )heat HCl
Fe
A14)