What is the Integral of 2^(x)?

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SUMMARY

The integral of 2^x with respect to x is (1/ln(2)) * 2^x + C, where C is the constant of integration. This result is derived using the property that the derivative of a^x is ln(a) * a^x, allowing for the straightforward application of integration techniques. By substituting 2^x with e^(x * ln(2)), the integration process simplifies significantly. Understanding these principles is essential for solving similar exponential integrals.

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Could someone please help me with the integral of 2^x. dx

I bet its really simple but i have looked in several books and they just give the answer.
 
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1.The simplest way to solve it is to remember what is the derivative of 2x,by integrating the known equality.

(In the general case [ax]'=ax*lna with a=const)

2.Let 2x=t

x=(1/ln2)*lnt ---> dx=(1/ln2)*1/t*dt

Further is straightforward.
 
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One way to do this is to note that, since ex and ln(x) are inverse functions, x= eln(x) for all x.

In particular, 2x= e^(ln(2x)= ex ln(2)

so that d(2x)/dx= dex ln(2)/dx= ln(2) 2x. (I'll bet that derivative formula is somewhere in your text.)

Since d(2x)/dx= ln(2) 2x,
the anti-derivative of 2x is (1/ln(2)) 2x.

In general, the derivative of ax is ln(a) ax and the anti-derivative is (1/ln(a)) ax.

(Notice that if a= e, ln(e)= 1 and we get the standard formulas.)
 

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