Can someone explain me [ Exponents ] chapter of maths in a easy and simple way .
Answers
Answer:
An exponent refers to the number of times a number is multiplied by itself.
Step-by-step explanation:
For example, 2 to the 3rd (written like this: 23) means: 2 x 2 x 2 = 8. 23 is not the same as 2 x 3 = 6.
Answer:
Here's what an exponent and a base look like:
\blueD4^\goldD34
3
start color #11accd, 4, end color #11accd, start superscript, start color #e07d10, 3, end color #e07d10, end superscript
The small number written above and to the right of a number is called an \goldD{\text{exponent}}exponentstart color #e07d10, start text, e, x, p, o, n, e, n, t, end text, end color #e07d10. The number underneath the exponent is called the \blueD{\text{base}}basestart color #11accd, start text, b, a, s, e, end text, end color #11accd. In this example, the base is \blueD44start color #11accd, 4, end color #11accd, and the exponent is \goldD33start color #e07d10, 3, end color #e07d10.
Here's an example where the base is \blueD77start color #11accd, 7, end color #11accd, and the exponent is \goldD55start color #e07d10, 5, end color #e07d10:
\blueD7^\goldD57
5
start color #11accd, 7, end color #11accd, start superscript, start color #e07d10, 5, end color #e07d10, end superscript
An exponent tells us to multiply the base by itself that number of times. In our example, \blueD4^\goldD34
3
start color #11accd, 4, end color #11accd, start superscript, start color #e07d10, 3, end color #e07d10, end superscript tells us to multiply the base of \blueD44start color #11accd, 4, end color #11accd by itself \goldD33start color #e07d10, 3, end color #e07d10 times:
\blueD4^\goldD3 =\blueD4 \times \blueD4 \times \blueD44
3
=4×4×4start color #11accd, 4, end color #11accd, start superscript, start color #e07d10, 3, end color #e07d10, end superscript, equals, start color #11accd, 4, end color #11accd, times, start color #11accd, 4, end color #11accd, times, start color #11accd, 4, end color #11accd
Once we write out the multiplication problem, we can easily evaluate the expression. Let's do this for the example we've been working with:
\blueD4^\goldD3 =\blueD4 \times \blueD4 \times \blueD44
3
=4×4×4start color #11accd, 4, end color #11accd, start superscript, start color #e07d10, 3, end color #e07d10, end superscript, equals, start color #11accd, 4, end color #11accd, times, start color #11accd, 4, end color #11accd, times, start color #11accd, 4, end color #11accd
\phantom{\blueD4^\goldD3}= 16 \times 44
3
=16×4empty space, equals, 16, times, 4
\phantom{\blueD4^\goldD3}= 644
3
=64empty space, equals, 64
The main reason we use exponents is because it's a shorter way to write out big numbers. For example, let's say we want to express the following:
\blueD2 \times \blueD2 \times \blueD2 \times \blueD2 \times \blueD2 \times \blueD22×2×2×2×2×2start color #11accd, 2, end color #11accd, times, start color #11accd, 2, end color #11accd, times, start color #11accd, 2, end color #11accd, times, start color #11accd, 2, end color #11accd, times, start color #11accd, 2, end color #11accd, times, start color #11accd, 2, end color #11accd
That's really long to write. My hands hurt just from typing it! Instead we can see that \blueD22start color #11accd, 2, end color #11accd is multiplied by itself \goldD66start color #e07d10, 6, end color #e07d10 times. This means we can write the same thing with \blueD22start color #11accd, 2, end color #11accd as the base and \goldD66start color #e07d10, 6, end color #e07d10 as the exponent:
\blueD2 \times \blueD2 \times \blueD2 \times \blueD2 \times \blueD2 \times \blueD2 = \blueD2^\goldD62×2×2×2×2×2=2
6
Step-by-step explanation:
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