Electroplating - Online Tutor, Practice Problems & Exam Prep

Now electroplating is the use of electrical current to coat metal cations onto a metal electrode. Now here when we say electrical current, this is the rate at which electrons move from electrode to electrode in a closed complete circuit. So we're talking about electrons traveling from the anode to the cathode.

Now here remember when we say rate, rate is just amount of something over changing time. Now here the SI unit for electrical current is amperes or amps, which uses capital A. And what's important here is that one ampere is equal to 1 C/s. So this is going to be an important conversion factor when we're talking about the calculations involved with typical electroplating questions.

Here it says determine the electrical current produced if a charge of 4.14 * 10 to the three coulomb passes through a wire for 15 minutes. All right, so remember electrical current is in amps, and remember that one amp is equal to 1 coulomb per second. So what we need to do here is we need to find units of coulombs and units of seconds, combine them together to find our amps which is equal to our current.

Alright, so here we already have the Coulomb's which is 4.14×103 C. All we have to do at this point is figure out from 15 minutes how many seconds do we have. So we have 15 minutes. Remember, one minute is equal to 60 seconds. Minutes cancel out here and we're going to have 900 seconds.

Take those 900 seconds, plug it here on the bottom. So that's going to give me 4.6 C/s or 4.6 amps. This would be our electrical current.

Now electrochemical stoichiometry deals with calculations in a metrochemical cells that involve current and charge. Now we're going to say this version is used when the given amount is in units of time, so hours, days, seconds, what have you. Now here they're going to give you units of time. So we start out with seconds of given. So if they give it to you in any other type of units of time, you have to convert them to seconds.

Once you have seconds of given, we'll utilize current with this. Remember current is the same thing as amperes which is Coulomb's per second. We would utilize seconds with current and that will help us isolate charge. So we have charge of given charge. Here we just use Coulombs as its units. From this point we interact with Faraday's constant. Remember Faraday's constant is 96,045 coulombs per moles of electrons. Interacting with this would then give us moles of electrons given.

At this point we need to go for moles of electrons and we need to make a jump to an area where we don't know as much. We're going to go to an area of unknown. This kind of a leap of faith. This jump will take us from moles of electrons to moles of unknown. Now here when we make this jump we actually have to do a mole to electron comparison. In this step we have to use the coefficients in the balance equation. So for example, one mole of your particular element has a transferring of three moles of electrons. So it would be 1 mole of element per three moles of electrons. This is the mole to electron comparison you'd have to do.

And then at this point, if you know the moles of your substance, we all know how to do different types of conversions. You can change those moles into grams, you could change them into molecules, you could change them into ions, you could change them into kilograms. But this is the setup that you utilize when they're giving you in the beginning units of time.

Here we're told that gold can be plated out of a solution containing gold 3 ion based on the following half reaction. Half reaction here is that says that for every one mole of gold 3 ion we absorb 3 moles of electrons to give us one mole of gold solid. Now here it says what mass of gold is plated by a 41 minute flow of 6.8 amps in terms of current.

Now here they're giving us units of time. In the beginning it's up to us first to change these minutes of giving into seconds of giving. So we're going to start out by saying we have 41 minutes. We need to convert it into seconds of given for everyone minute. It's 60 seconds right? Now that we have seconds, we're going to introduce current. Now remember current or AMS SO1 amp is equal to 1 coulomb per one second. So when I give me 6.8 amps here, it's equal to 6.8 coulombs per one second.

We want seconds to cancel slots, so we're going to put the one seconds on the bottom, 6.8 Coulomb's on the top. Now that we have Coulombs, we're going to have to go from seconds of given to charging given, and that's what we just did here. Next, we're going to go from charge a given to moles of electrons of given by utilizing Faraday's constant 96,045 coulombs per one mole of electrons.

Now that we have moles of electrons given, we're going to make the jump to moles of unknown. So we have to look at the coefficients in the balance equation and it is for everyone mole of my solid. I have 3 moles of electrons, so it's 3 moles of electrons for every one mole of gold. So moles of electrons can't slap. Now I have moles of gold here. We want mass, so we're going to end at grand.

So last thing is we're going to say for everyone mole of gold. According to my periodic table, we're going to say the atomic mass of gold is 196.967g of gold. So here, when we work this out, we're going to get 11.383 grams of gold. If we want to do it in terms of sick figs, this has two sig figs. This has two sig figs. So you can round to just 11 grams of gold. So here this will be our final answer.

Here we're going to say when the initial mass for half reaction is given, we can utilize the mass version of the stoichiometric chart to find time. So here we're going to say this version is used when the given amount is in units of mass.

Here we're going to start out with grams of given and with these grams are given. We know how to go from grams to moles. We use the atomic mass of the oven. Now we're going from moles of Gibbon to moles of electrons. Given this requires us to do a jump when we do this jump, in actuality what we're doing is a mole of your element to moles of electrons transferred. So it's a mole to electrons comparison.

Here we'd have to use the coefficients in the balance equation. Now once we know the moles of electrons, we can utilize Faraday's constant and this will help us find the charge of our unknown. And once you know the charge of your unknown, you can use current which will then help you find seconds of unknown. So this is the chart we utilize when given our mass initially.

How much time in hours would it take to play out 42.1 grams of nickel using a current of 3.08 amps. So here we have one mole of nickel 2 plus ion reacting with two moles of electrons to give us one mole of nickel solid. Here we're going to start out with grams of given 42.1 grams of nickel, and we're going to change those grams of giving it to moles of given grams go on the bottom so they can cancel out. One mole of nickel goes on top here.

If we look at the periodic table, we'll find the atomic mass of nickel that comes out to 58.693. We now have moles of given. So next step is to get moles of electrons of given. To do that, we look at the coefficients in the balanced equation. Wherever one mole of nickel solid, there's two moles of electrons involved. So for every one mole of nickel, there's two moles of electrons. So moles of nickel are gone.

Now we need to go from moles of electrons of given to charge of unknown. We do this by utilizing faradays constant. So for every one mole of electrons it's 96,045 coulomb's. Now that we have charge of unknown we can find here. Let's see from this we can utilize our current and that'll help me find seconds involved. Remember amps is equal to 3.08 here coulombs per second. So we put the 3.08 coulombs on the bottom, one second on the top.

We have seconds now. So now it just becomes converting seconds into minutes and then into hours. So we're going to say we have 60 seconds for everyone minute we have here. One hour is equal to 60 minutes. Everything here cancels out, so at the end we're going to get 12.483 hours. Here are numbers in the question. Have three sig figs so I'm going to round this to 12.5 hours O this would be our final answer.