A cell is produced using Ag/Ag+ and Zn/Zn2+ half cells. The reduction potentials are listed below Ag/Ag+: E° = 0.80 V
Zn/Zn2+: E° = -0.76 V
Write out the equation that represents the overall reaction of the cell.

A 1.35 g sample of Zn is combined with 200.0 mL of 0.110 AgNO3 at 25 ℃
Identify the limiting reagent. Show calculations to support your answer

Based upon the limiting reagent determine the concentration of Zn2+ after the reaction is complete. Assume no change in volume.

Determine E° of the cell.

Determine the value of the standard free energy change.

Determine the value of the potential, E, for the cell at the concentrations of Ag+ and Zn2+ that are determined in part (b)

What type of energy do chemical bonds have? what type of energy is it converted to during chemical reactions? question 15 options: chemical bonds have kinetic energy, which is converted to potential energy during chemical reactions. chemical bonds have electric energy, which is converted to potential energy during chemical reactions. chemical bonds have heat energy, which is converted to kinetic energy during chemical reactions. chemical bonds have potential energy, which is converted to heat energy during chemical reactions.

Right anwser gets marked brainliest newton's discovery concerning how fast an object will change speed is the: 1st law 2nd law 3rd law universal gravitation

What is the relationship between wind and ocean waves? question 17 options: wind moving at higher speeds will transfer more energy to the water, resulting in stronger waves. wind moving at higher speeds will transfer energy over a larger part of the ocean water, resulting in waves with a shorter wavelength. winds moving at higher speeds with cause water to move forward at faster rates, causing larger ocean waves. winds moving at higher speeds will affect deeper water, resulting in waves that move at a faster rate. how do temperature and salinity affect deepwater currents? question 15 options: as temperatures and salinity levels of water increase, the water rises to the surface where it creates currents as it moves to colder regions. they create changes in wind direction, moving denser water in the same direction as the wind and causing the deepwater circulation patterns found in the ocean. they equalize the forces on undersea currents caused by the coriolis effect as they replace more dense water with less dense water. they create density differences that cause dense deepwater currents to flow toward the equator where they displace less dense, warmer water above them.