ODE No. 360

2.360 ODE No. 360

Problem in Latex
Mathematica input
Maple input

$y^{'} (x) \cos (a y (x)) - b (1 - c \cos (a y (x))) \sqrt{c \cos (a y (x)) + \cos^{2} (a y (x)) - 1} = 0$ ✓ Mathematica : cpu = 4.29684 (sec), leaf count = 369

${{y (x) \to InverseFunction [- \frac{i (\cos (# 1 a) + 1) \sqrt{\frac{2 c \cos (# 1 a) + \cos (2 # 1 a) - 1}{(\cos (# 1 a) + 1)^{2}}} \sqrt{\frac{c \tan^{2} (\frac{# 1 a}{2}) + \sqrt{c^{2} + 4} + 2}{\sqrt{c^{2} + 4} + 2}} \sqrt{1 - \frac{c \tan^{2} (\frac{# 1 a}{2})}{\sqrt{c^{2} + 4} - 2}} ((c - 1) F (i \sinh^{- 1} (\sqrt{- \frac{c}{\sqrt{c^{2} + 4} - 2}} \tan (\frac{a # 1}{2})) | \frac{2 - \sqrt{c^{2} + 4}}{\sqrt{c^{2} + 4} + 2}) + 2 Π (\frac{(c + 1) (\sqrt{c^{2} + 4} - 2)}{(c - 1) c}; i \sinh^{- 1} (\sqrt{- \frac{c}{\sqrt{c^{2} + 4} - 2}} \tan (\frac{a # 1}{2})) | \frac{2 - \sqrt{c^{2} + 4}}{\sqrt{c^{2} + 4} + 2}))}{a (c^{2} - 1) \sqrt{\frac{c}{4 - 2 \sqrt{c^{2} + 4}}} \sqrt{2 c \cos (# 1 a) + \cos (2 # 1 a) - 1} \sqrt{- c \tan^{4} (\frac{# 1 a}{2}) - 4 \tan^{2} (\frac{# 1 a}{2}) + c}} &] [- \frac{b x}{\sqrt{2}} + c_{1}]}}$ ✓ Maple : cpu = 0.273 (sec), leaf count = 48

${x +_C 1 + \int^{y (x)} 2 \frac{\cos (_a a)}{b (c \cos (_a a) - 1) \sqrt{- 2 + 2 \cos (2_a a) + 4 c \cos (_a a)}} d_a = 0}$

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