The expermental setup for a typical `Zn-Ni` galvanic cell as shown below in figure:
(a). Identify M and X and determine cell potential at `25^(@)C`
(b). If concentration of `M^(2+)` ion changes to 1.0 M during its usage, what would be the new cell voltage?
(c). Describe, what would happen to cell voltage if salt bridge was removed.

When a cell is placed in 0.25 M concentrated suger solution, there is no change in it. The concentration of cell sap would be

If the DNA content of a cell is 2C after M phase, what will be the DNA content of the cells at G_(1), after S and at G_(2)

The e.m.f and the standard e.m.f of a cell in the following reaction is 5 V and 5.06 V at room temperature, Ni(s) + 2Ag^+(n) → Ni^(2+)(0.02M) + 2Ag(s) . What is the concentration of Ag+ ions?

When a cell is placed in 0.5 M solution of salt and no change in the volume of the cell is observed, the concentration of cell sap would be

Draw the diagram a of galvanic cell involving following reactions : Zn+Cu^(+) to Zn^(2+) +Cu and answer the following questions: (i) Label the cathode and anode (ii) How does the e.m.f. of the cell changes with the decrease in the concentration of Cu^(2+) ions ? (iii) What is the function of salt bridge in it? (iv) Name the salt to be used in salt bridge. (v) Write the reactions occurring at each electrode. (vi) In which direction the electrons would flow in the external circuit? (vii) How electrical neutrality is maintained in both the half cells?

Consider figure from the above question and answer the questions (i) to (vi) given below. (i) Redraw the diagram to show the direction of electron flow. (ii) Is silver plate the anode or cathode? (iii) what will happen it salt bridge is removed? (iv) When will the cell stop functining? ( v) How will concentration of Zn^(2+) ions and Ag^(+) ions be affected when the cell function? (vi) How will the concentration of Zn^(2+) ions and Ag^(+) ions be affected after the cell becomes dead?

In an experiment to measure the membrane potential of a living plant cell micro-electrodes are placed inside and outside the cell. The membrane potential is measured to be 120 mV and a current of 1.5 nA flows through the membrane .Assume that the current density in the cell is uniform. The total area of the cell membrane is 2.0 m m^(2) and its thickness is 12 mum . (a) What is the current density in the membrane? (b) What is the resistivity of the membrane ?

A voltaic cell is set up at 25^(@)C with the following half cells : Ag^(+) (0.001M) | Ag and Cu^(2+)(0.10 M)|Cu What would be the voltage of this cell ? (E_("cell")^(@) = 0.46 V)

Consider the following electrochemical cell. (a). Write a balanced net ionic equation for the spontaneous reaction that take place in the cell. (b). Calculate the standard cell potential E^(0) for the cell reaction. (c). If the cell emf is 1.6V what is the concentration of Zn^(2+) ? (d). How will the cell potential be affected if Kl is added to Ag^(+) half-cell?

The E_(cell)^(0) for the reaction Fe+Zn^(2+)hArrZn+Fe^(3+) is -0.32 volt at 25^(@)C . What will be the equilibrium concentration of Fe^(2+) , when a piece of iron is placed in a 1MZn^(2+) solution?