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  • So let's generalize a bit what we learned in the

  • last presentation.

  • Let's say I'm borrowing P dollars.

  • P dollars, that's what I borrowed so that's my

  • initial principal.

  • So that's principal.

  • r is equal to the rate, the interest rate that

  • I'm borrowing at.

  • We can also write that as 100r%, right?

  • And I'm going to borrow it for-- well, I

  • don't know-- t years.

  • Let's see if we can come up with equations to figure out

  • how much I'm going to owe at the end of t years using either

  • simple or compound interest.

  • So let's do simple first because that's simple.

  • So at time 0-- so let's make this the time axis-- how

  • much am I going to owe?

  • Well, that's right when I borrow it, so if I paid

  • it back immediately, I would just owe P, right?

  • At time 1, I owe P plus the interest, plus you can kind of

  • view it as the rent on that money, and that's r times P.

  • And that previously, in the previous example, in the

  • previous video, was 10%.

  • P was 100, so I had to pay $10 to borrow that money for a

  • year, and I had to pay back $110.

  • And this is the same thing as P times 1 plus r, right?

  • Because you could just use 1P plus rP.

  • And then after two years, how much do we owe?

  • Well, every year, we just pay another rP, right?

  • In the previous example, it was another $10.

  • So if this is 10%, every year we just pay 10% of

  • our original principal.

  • So in year 2, we owe P plus rP-- that's what we owed in

  • year 1-- and then another rP, so that equals

  • P plus 1 plus 2r.

  • And just take the P out, and you get a 1 plus r

  • plus r, so 1 plus 2r.

  • And then in year 3, we'd owe what we owed in year 2.

  • So P plus rP plus rP, and then we just pay another rP, another

  • say, you know, if r is 10%, or 50% of our original principal,

  • plus rP, and so that equals P times 1 plus 3r.

  • So after t years, how much do we owe?

  • Well, it's our original principal times 1 plus,

  • and it'll be tr.

  • So you can distribute this out because every year we pay Pr,

  • and there's going to be t years.

  • And so that's why it makes sense.

  • So if I were to say I'm borrowing-- let's

  • do some numbers.

  • You could work it out this way, and I recommend you do it.

  • You shouldn't just memorize formulas.

  • If I were to borrow $50 at 15% simple interest for 15-- or

  • let's say for 20 years, at the end of the 20 years, I would

  • owe $50 times 1 plus the time 20 times 0.15, right?

  • And that's equal to $50 times 1 plus-- what's 20 times 0.15?

  • That's 3, right?

  • Right.

  • So it's 50 times 4, which is equal to $200 to

  • borrow it for 20 years.

  • So $50 at 15% for 20 years results in a $200

  • payment at the end.

  • So this was simple interest, and this was

  • the formula for it.

  • Let's see if we can do the same thing with compound interest.

  • Let me erase all this.

  • That's not how I wanted to erase it.

  • There we go.

  • OK, so with compound interest, in year 1, it's the same thing,

  • really, as simple interest, and we saw that in the

  • previous video.

  • I owe P plus, and now the rate times P, and that equals

  • P times 1 plus r.

  • Fair enough.

  • Now year 2 is where compound and simple interest diverge.

  • In simple interest, we would just pay another rP, and

  • it becomes 1 plus 2r.

  • In compound interest, this becomes the new

  • principal, right?

  • So if this is the new principal, we are going to pay

  • 1 plus r times this, right?

  • Our original principal was P.

  • After one year, we paid 1 plus r times the original principal

  • times 1 plus r rate.

  • So to go into year 2, we're going to pay what we owed at

  • the end of year 1, which is P times 1 plus r, and then we're

  • going to grow that by r percent.

  • So we're going to multiply that again times 1 plus r.

  • And so that equals P times 1 plus r squared.

  • So the way you could think about it, in simple interest,

  • every year we added a Pr.

  • In simple interest, we added plus Pr every year.

  • So if this was $50 and this is 15%, every year we're adding

  • $3-- we're adding-- what was that?

  • 50%.

  • We're adding $7.50 in interest, where P is the principal,

  • r is the rate.

  • In compound interest, every year we're multiplying the

  • principal times 1 plus the rate, right?

  • So if we go to year 3, we're going to multiply

  • this times 1 plus r.

  • So year 3 is P times 1 plus r to the third.

  • So year t is going to be principal times 1 plus

  • r to the t-th power.

  • And so let's see that same example.

  • We owe $200 in this example with simple interest.

  • Let's see what we owe in compound interest.

  • The principal is $50.

  • 1 plus-- and what's the rate?

  • 0.15.

  • And we're borrowing it for 20 years.

  • So this is equal to 50 times 1.15 to the 20th power.

  • I know you can't read that, but let me see what I can

  • do about the 20th power.

  • Let me use my Excel and clear all of this.

  • Actually, I should just use my mouse instead of the pen tool

  • to the clear everything.

  • OK, so let me just pick a random point.

  • So I just want to-- plus 1.15 to the 20th power, and you

  • could use any calculator: 16.37, let's say.

  • So this equals 50 times 16.37.

  • And what's 50 times that?

  • Plus 50 times that: $818.

  • So you've now realized that if someone's giving you a loan and

  • they say, oh, yeah, I'll lend you-- you need a 20-year loan?

  • I'm going to lend it to you at 15%.

  • It's pretty important to clarify whether they're going

  • to charge you 15% interest at simple interest or

  • compound interest.

  • Because with compound interest, you're going to end up paying--

  • I mean, look at this: just to borrow $50, you're going to

  • be paying $618 more than if this was simple interest.

  • Unfortunately, in the real world, most of it is

  • compound interest.

  • And not only is it compounding, but they don't even just

  • compound it every year and they don't even just compound it

  • every six months, they actually compound it continuously.

  • And so you should watch the next several videos on

  • continuously compounding interest, and then you'll

  • actually start to learn about the magic of e.

  • Anyway, I'll see you all in the next video.

So let's generalize a bit what we learned in the

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A2 初級

利息(第二部分) (Interest (part 2))

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    kellylin007 發佈於 2021 年 01 月 14 日
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