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 Sep24 awarded Autobiographer Oct26 awarded Yearling Dec16 comment Planetary Motion: Integral @ Srivatsan: Many thanks for the details. I really need to fresh up my high school calculus learning. Thanks again for considerable effort. Dec16 comment Planetary Motion: Integral @ Srivatsan: Just one more doubt. What made you assume, $lx - \dfrac{\mu C}{l} = \sqrt{2 \mu E + \dfrac{\mu^2 C^2}{l^2}} \sin{\theta}$? It didn't occured to my mind? :( Dec16 awarded Supporter Dec16 comment Planetary Motion: Integral @ Srivatsan. Thank you very much. Dec16 accepted Planetary Motion: Integral Dec16 asked Planetary Motion: Integral Oct31 awarded Nice Question Oct30 accepted Getting $22$ as the answer always Oct30 comment Getting $22$ as the answer always @ user9176: Great!! I will always get $222$..:) Oct30 comment Simplifying $\left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z+\Delta z} - \left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z} = ?$ Thank you. Tigran. Oct30 awarded Scholar Oct30 accepted Simplifying $\left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z+\Delta z} - \left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z} = ?$ Oct30 asked Getting $22$ as the answer always Oct30 comment Simplifying $\left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z+\Delta z} - \left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z} = ?$ @ J.M.: Ok. I got it. Will take care in future. Oct30 awarded Student Oct30 asked Simplifying $\left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z+\Delta z} - \left.\dfrac{\partial f}{\partial z} \right\arrowvert_{z} = ?$