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OLICUPLULULUI 22. the deposition of (a) ...

OLICUPLULULUI 22. the deposition of (a) 8.3 (b) 5.3 x 104 (C) 6420 (d 107 9. Passage of a current for 548 seconds through a silver coulometer results in the den 0.746 g of silver. What is the current (in A)? (a) 1.22 (b) 1.16 (c) 1.07 (d) 1.00 10. Electrolysis can be used to determine atomic masses. A current of 0.550 A deposits i inn minutes Calculate the atomic mass of the metal if en A deposits 0.55 g of a anase

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Passage of a current for 548 seconds through a siver coulometer results in the deposition of 0.746g of silver.What is the current (in A)?

Passage of a current for 548 seconds through a siver coulometer results in the deposition of 0.746g of silver.What is the current (in A)?

Passage of a current for 548 seconds through a siver coulometer results in the deposition of 0.746g of silver.What is the current (in A)?

Electrolysis can be used to determine atomic masses. A current of 0.550A deposits 0.55g of a certain metal in 100 minutes. Calculates the atomic mass of the metal if n=3 :

Electrolysis can be used to determine atomic masses. A current of 0.550 A deposits 0.55g of a certain metal in 100 minutes. Calculate the atomic mass of the metal if eq. mass=molar Mass/3

Electrolysis can be used to determine atomic masses. A current of 0.550 A deposits 0.55g of a certain metal in 100 minutes. Calculate the atomic mass of the metal if eq. mass=mole. Mass/3

Electrolysis can be used to determine atomic masses. A current of 0.550 A deposits 0.55g of a certain metal in 100 minutes. Calculate the atomic mass of the metal if eq. mass=mole. Mass/3

Electrolysis can be used to determine atomic masses. A current of 0.550A deposits 0.55g of a certain metal in 100 minutes. Calculate the atomic mass of the metal if eq. wt = mole.wt./3