Simplify the expression $\frac{\left(2x+3\right)^5\sqrt{x+1}}{\left(7x+4\right)^3\cos\left(x\right)}$

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Learn how to solve simplification of algebraic fractions problems step by step online. Simplify the expression ((2x+3)^5(x+1)^(1/2))/((7x+4)^3cos(x)). We can expand the expression \left(2x+3\right)^5 using Newton's binomial theorem, which is a formula that allow us to find the expanded form of a binomial raised to a positive integer n. The formula is as follows: \displaystyle(a\pm b)^n=\sum_{k=0}^{n}\left(\begin{matrix}n\\k\end{matrix}\right)a^{n-k}b^k=\left(\begin{matrix}n\\0\end{matrix}\right)a^n\pm\left(\begin{matrix}n\\1\end{matrix}\right)a^{n-1}b+\left(\begin{matrix}n\\2\end{matrix}\right)a^{n-2}b^2\pm\dots\pm\left(\begin{matrix}n\\n\end{matrix}\right)b^n. The number of terms resulting from the expansion always equals n + 1. The coefficients \left(\begin{matrix}n\\k\end{matrix}\right) are combinatorial numbers which correspond to the nth row of the Tartaglia triangle (or Pascal's triangle). In the formula, we can observe that the exponent of a decreases, from n to 0, while the exponent of b increases, from 0 to n. If one of the binomial terms is negative, the positive and negative signs alternate.. Multiplying polynomials \sqrt{x+1} and 32x^{5}+240x^{4}+720x^{3}+1080x^{2}+810x+243. Multiplying polynomials \sqrt{x+1} and 240x^{4}+720x^{3}+1080x^{2}+810x+243. Multiplying polynomials \sqrt{x+1} and 720x^{3}+1080x^{2}+810x+243.