I feel that deep within the knowledge of many users here dwell great problems regarding clever tricks for simplifying problems, and factoring algebraic expressions. I would be very much interested in seeing a large list of problems, regarding such problems.
Any problem that is clever, has something to do with factorization or simplification should be placed here. Now, I would hope that only the crème de la crème. The very best of such problems. Not just a mass of standard ones.
Any problem that does not require advanced math such as, topology, linear algebra, differential equations are allowed or imaginary numbers. The problem may indeed be very difficult, but it should not consist of topics beyond the first year of college.
Does anyone have any similar problems, or expressions like the small list I compiled below? (My favourite problem of the answers, will get the reward.)
- If possible simplify these expressions into simpler terms
- If further simplification is not possible, factor the expressions as much as possible in the reals.
- $ \qquad \frac{7}{\sqrt{7}}$
- $ \qquad 2x^2 -1 + 2x^2$
- $ \qquad x(x-1)-2(x-1)$
- $ \qquad x^2+3x-2x-6$
- $ \qquad \frac{t^2-6t+9}{t^2-8t+15}$
- $ \qquad \frac{t^2 - 2t - 4}{2t + \sqrt{2}}$
- $ \qquad \frac{1}{2} \ln \left( \frac{\sqrt{3}+\sqrt{2}}{\sqrt{3}-\sqrt{2}}\right) $
- $ \qquad \big(\cos(x) + \sin(x)\big)^2+\big( \cos(x) - \sin(x) \big)^2$
- $ \qquad \frac{3 - 4\sqrt{3}x}{\sqrt{3}}$
- $ \qquad \frac{1-4y^2}{6y-3}$
- $ \qquad \frac{\cos x \cdot (\sin x+1)^2 - \cos \cdot (\sin x-1)^2}{(\sin x)^4 - (\cos x)^4}$
- $ \qquad \sqrt{4 - 2\sqrt{3}}$
- $ \qquad \frac{2t^2-1}{2t + \sqrt{2}} $
- $ \frac{2^{2x-1} - 2^{x-1}}{2^{2x-1}}$
- $ \frac{\qquad\dfrac{5p+10}{p^2-4}\qquad}{\dfrac{3p-6}{(p-2)^2}}$
- $ \sqrt[3]{\frac{x^3-6x^2+12x-8}{x^3+3x^2+3x+1}}$
- $ y^2 - 4 - x^2 + 4x$
- $ \sqrt{9x^2-6x+1}$
- $ \ln \left( \sqrt{x-1} \right) \exp \left( \ln(4) + \ln \left( \frac{1}{2} \right)\right)$
- $ \sqrt[\Large 4]{\dfrac{6 - 2\sqrt{5}}{6 + 2\sqrt{5}}}$
- $ \dfrac{\left( 1 + \dfrac{1}{\sqrt[4]{x}}\right) (x-1)}{\left( 1 + \dfrac{1}{\sqrt{x}}\right)}$
- $ \qquad \dfrac{x^{\frac{3}{2}} \cdot \sqrt[2]{\frac{y}{x} \cdot }\left( x^2 - 2x y^3 + y^6 \right) }{\left( \sqrt{x} - \sqrt{y^3} \right) x \left( \sqrt{x} + \sqrt{y^3} \right) }$
- $ \qquad \Large 2^{\frac{\log\left( \frac{100}{x}\right) - 1 }{- \log(2)}}$
- $ x^6-2x^3+1$
- $ x^6+3x^4+3x^2+1$
- $ x^3+x^2-x-1$
- $ (2k+1)^8-1$
- $ x^3 + 1$
- $ x^4 + 1$
- $ x^4 + x^2 + 1$
- $ \sqrt{18(\sqrt[3]10 - 2)} $
- $ \frac{n! + (n-1)n!}{(n-2)!} $
- $ \qquad \sqrt{12 + 5 \sqrt 6}$
- $ \sqrt{\frac{1}3 \sqrt{6} (12 + 5\ \sqrt 6)}$
- $ x^4-6x^3+11x^2-6x+1$
- $ x^4+6x^3-5x^2-10x-3$
- $ \sqrt{1 + \sin 2x}$
- $ x(x+1)(x+2)(x+3) - 120 $
- $ \sqrt{ \frac{1}{1 + \sin x } } $
- $ \qquad \frac{\sin t + \sin 3t}{\cos 3t + \cos t} $
- $ \sqrt[3]{26+15\sqrt{3}}$
- $ x^5+x+1$
- $ \sqrt{2^{6/7}}$
Regards werner