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### Course: Algebra basics > Unit 6

Lesson 3: Exponent properties (integer exponents)- Multiplying & dividing powers (integer exponents)
- Multiply & divide powers (integer exponents)
- Powers of products & quotients (integer exponents)
- Powers of products & quotients (integer exponents)
- Properties of exponents challenge (integer exponents)
- Powers of zero

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# Powers of zero

Any non-zero number to the zero power equals one. Zero to any positive exponent equals zero. So, what happens when you have zero to the zero power? Created by Sal Khan.

## Want to join the conversation?

- there is no such thing as +0 or -0 right? my friends think that and i wasn't for sure.(200 votes)
- Hi! There Isn't such a thing as positive zero or -0. Zero is an undefined number, meaning that it is not - or +. I hope this helps!(251 votes)

- Why is 0 raised to the power of a negative number undefined(11 votes)
- When a number is raised to the power of a negative number, it is put under one and the exponent turns positive. For example, 2^-2 would be written as 1/2^2 or 1/4.

Now if zero is raised to a negative power, it would be like: 0^-1 what simplifies to 1/0^1 what simplifies to 1/0. When a number is divided by zero, it results in undifined.(24 votes)

- Hey, everyone, I understand everything Sal is explaining but I still feel I need a deeper understanding of why a^0=1. You see my dilemma is not in understanding how for example when 2^4=16 is also like saying 2^4=1x2x2x2x2. It's just if I applied that same logic to say 2^0 then I would get 2^0=1x(nothing) and from what I've gathered any number multiplied by zero is always zero. I'm confused as to how this becomes intuitive or logical. I can just accept it, but there doesn't seem to be any logical explanation here and I know math is a formal/logical system and it's meant to be understood so would someone please explain to me what I am missing to logically understand this :)?(10 votes)
- 2^0 is not "1 x nothing".

2^0 = 1 x "no 2's". This leaves just the 1.

Of, work it backwards...

2^3 = 8

2^2 = 4

How do you change 2^3 or 8 into 4? You divide by 2: 2^3 / 2 = 8/2 = 4

2^2 = 4

2^1 = 2

Again, 2^2 / 2 = 4/2 = 2

2^1 = 2

So, 2^0 = ?. Use the same logic. 2^1 / 2 = 2/2 = 1, NOT zero.

Hope this helps.(17 votes)

- For those still confused, hopefully this helps:

In terms of the number 2, think of going forward as multiplying 2 by 2 each step, and going backwards you are DIVIDING 2 by 2 each step.

With that in mind:`EXPONENT NUMBER LINE`

⟵ ⟵ ⟵ ⟶ ⟶ ⟶

-3 -2 -1 0 1 2 3

Forwards (right direction):

2¹ = 2

2² = 2*2

2³ = 2*2*2

to get from 2³ to 2² we need to DIVIDE by 2

2*2*2/2 = 2*2

to get from 2² to 2¹ we need to DIVIDE by 2

2*2/2 = 2

So what is 2⁰?

Well, to get from 2¹ to 2⁰, we follow the same pattern or logic of DIVIDING by 2.

2⁰ = 2/2

2 cakes divided among 2 people, how many cakes each person gets? That's right, one!

2⁰ = 1

You can continue this logic into the negative and you would get this pattern:

2¯¹ = 1/2

2¯² = 1/2/2/2

2¯³ = 1/2/2/2/2

Hopefully that makes intuitive sense!(13 votes) - Anyone else just scroll through comments laughing and commenting for fun? :)(10 votes)
- is it just me or do the teachers over explain it to make it confusing(8 votes)
- would the exponents be consider as the absolute values?(6 votes)
- I hear what he's saying, I just don't understand it. You always have to include a 1 before you start multiplying a number with itself. Is it required with every exponent equation or, is this just a different method he's showing us?(4 votes)
- i think it is in every exponent equation but it wont make a difference in those but in these you do need the one.(5 votes)

- Is 0^0 one or zero? Technically it could be 1, because 0^1 = 1*0, so 0^0 must be 1 with no zeros to multiply it to. It could also be 0, because you do not have to add the 1 * at the beginning. Would that mean 0^0 is nothing?(4 votes)
- Also wird 0 hoch zu jeder Potenz einfach Null sein(5 votes)

## Video transcript

- [Instructor] In this video, we're going to talk about powers of zero. And just as a little bit of a reminder, let's start with a nonzero number, just to remind ourselves what
exponentiation is all about. So if I were to take
two to the first power, one way to think about this
is we always start with a one, and then we multiply this base that many times times that one. So here, we're only gonna have one two, so it's gonna be one times two, which is, of course, equal to two. If I were to say what is
two to the second power? Well, that's going to
be equal to one times, and now I'm gonna have two twos, so times two times two,
which is equal to four. And you could keep going like that. Now, the reason why I have this one here, and we've done this before, is to justify, and there's many other
good reasons why two to the zero power should be equal to one. But you could see, if we use
the same exact idea here, you start with a one, and then you multiply
it by two zero times. Well, that's just going
to end up with a one. So, so far I've told you this
video's about powers of zero, but I've been doing powers of two. So let's focus on zero now. So what do you think zero to
the first power is going to be? Pause this video, and
try to figure that out. Well, you do the exact same idea. You start with a one, and then
multiply it by zero one time. So times zero, and this is going to be equal to zero. What do you think zero to the second power is going to be equal to? Pause this video and think about that. Well, it's going to be
one times zero twice, so times zero times zero. And I think you see where this is going. This is also going to be equal to zero. What do you think zero to some arbitrary positive integer is going to be? Well, it's going to be
equal to one times zero that positive integer number of times. So once again, it's going
to be equal to zero. And in general, you can extend that. Zero to any positive value exponent is going to give you zero. So that's pretty straightforward. But there is an
interesting edge case here. What do you think zero to
the zeroth power should be? Pause this video and think about that. Well, this is actually contested. Different people will
tell you different things. If you use the intuition
behind exponentiation that we've been using in this video, you would say, all right,
I would start with a one and then multiply it by zero zero times. Or in other words, I just
wouldn't multiply it by zero, in which case I'm just left with the one, the zero to the zeroth power
should be equal to one. Other folks would say, "Hey, no, I'm with the zero and
that's the zeroth power, maybe it should be a zero." And that's why a lot of
folks leave it undefined. Most of the time, you're going to see zero
to the zeroth power, either being undefined or
that it is equal to one.