The following diagram shows the setup of an electrochemical cell in which the respective half cells contain aqueous 1.0 M solutions of the salts `XCl_(2)` and `YCl_(3)`. Given that
`3X(s)+2Y^(3+)(aq)to3X^(2+)(aq)+2Y(s)E_(cell)Llt0` Which of the following statements is correct?

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 Which of the following statements is correct? I. The electrode made from metal X has positive polarity II. Electrode Y Is the anode II. Tho flow of electrons is from Y to X IV. The reaction at electrode X is an oxidation V. The salt bridge would most likely contain silver nitrate

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 Which of the following statements is correct? I. The electrode made from metal X has positive polarity II. Electrode Y Is the anode II. Tho flow of electrons is from Y to X IV. The reaction at electrode X is an oxidation V. The salt bridge would most likely contain silver nitrate

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 if salt-bridge is removed:

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 if salt-bridge is removed:

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 Cell reaction is spontaneous:

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 Cell reaction is non spontaneous:

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 E_("cell") of the above designed cell is if standard emf of cell is -0.20 V.

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 E_("cell") of the above designed cell is if standard emf od cell is -0.20 V.

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2+)(aq)+2Y(s) epsi_("cell") gt 0 E_(X//X^(2+))^@=0.20v, E_(Y//Y^(3+))^(@)=0.40 V " the "E_("cell")^(@) of the above designed cell is

The following diagram shown as electrochemical cell in which the respective half-cells contains aqueous 1.0M solutions of the salts XCl_(2) and YCl_(3) . Given that 3X(s)+2Y^(3+) (aq) to 3X^(2)(aq)+2Y(s) epsi_("cell") gt 0 E_(X//X^(2+))^@=0.20v, E_(Y//Y^(3+))^(@)=0.40 V " the "E_("cell")^(@) of the above designed cell is