The implementation of pow() typically involves logarithms, multiplication and expononentiaton, so it will DEFINITELY take longer than a simple multiplication. Most modern high end processors can do multiplication in a couple of clockcycles for integer values, and a dozen or so cycles for floating point multiply. exponentiation is either done as a complex (microcoded) instructions that takes a few dozen or more cycles, or as a series of multiplication and additions (typically with alternating positive and negative numbers, but not certainly). Exponentiation is a similar process.
On lower range processors (e.g. ARM or older x86 processors), the results are even worse. Hundreds of cycles in one floating point operation, or in some processors, even floating point calculations are a number of integer operations that perform the same steps as the float instructions on more advanced processors, so the time taken for
pow() could be thousands of cycles, compared to a dozen or so for a multiplication.
Whichever choice is used, the whole calculation will be significantly longer than a simple multiplication.
pow() function is useful when the exponent is either large, or not an integer. Even for relatively large exponents, you can do the calculation by squaring or cubing multiple times, and it will be faster than
Of course, sometimes the compiler may be able to figure out what you want to do, and do it as a sequence of multiplications as a optimization. But I wouldn't rely on that.
Finally, as ALWAYS, for performance questions: If it's really important to your code, then measure it - your compiler may be smarter than you thin. If performance isn't important, then perform the calculation that is the makes the code most readable.