erialai Posted October 15, 2014 Share Posted October 15, 2014 So i'm stuck on a tutorial I've been sent to do, could anyone help me out please? i have no idea where to start, I've looked through all my previous lecture notes but i can't find a logical way to solve the problems. i've attached the tutorial. Thanks. Link to comment Share on other sites More sharing options...
studiot Posted October 15, 2014 Share Posted October 15, 2014 (edited) After breaking my neck reading the scrolls you posted i thought that they first one gave you the equation and the second one gave you some figures to plug in. So what have you done so far and what do you not understand? Edited October 15, 2014 by studiot Link to comment Share on other sites More sharing options...
erialai Posted October 16, 2014 Author Share Posted October 16, 2014 After breaking my neck reading the scrolls you posted i thought that they first one gave you the equation and the second one gave you some figures to plug in. So what have you done so far and what do you not understand? 11.jpg22.jpg The thing is i need find the time and in order to get that i need to integrate which I'm unable to do with that equation Link to comment Share on other sites More sharing options...
Fuzzwood Posted October 16, 2014 Share Posted October 16, 2014 Show us what you get directly after separation of variables. Link to comment Share on other sites More sharing options...
erialai Posted October 16, 2014 Author Share Posted October 16, 2014 this is hat i get... i've made many attempts on it smh Link to comment Share on other sites More sharing options...
studiot Posted October 16, 2014 Share Posted October 16, 2014 (edited) Looking at the end of your working surely [math]\int {\frac{{a + bx}}{{cx}}} dx[/math] = [math]\int {\frac{a}{{cx}}dx} [/math] + [math]\int {\frac{{bx}}{{cx}}} dx[/math] Where a, b and c are constants. is a very basic integral Edited October 16, 2014 by studiot Link to comment Share on other sites More sharing options...
erialai Posted October 17, 2014 Author Share Posted October 17, 2014 Looking at the end of your working surely [math]\int {\frac{{a + bx}}{{cx}}} dx[/math] = [math]\int {\frac{a}{{cx}}dx} [/math] + [math]\int {\frac{{bx}}{{cx}}} dx[/math] Where a, b and c are constants. is a very basic integral thanks for the help, i tried solving it in that way and i'm still getting the wrong answer. Heres what I've done/: Link to comment Share on other sites More sharing options...
studiot Posted October 17, 2014 Share Posted October 17, 2014 (edited) My post#6 was meant to stimulate questions about your integration. I don't see a logarithm creeping into your working and there should be. What is the integral of a constant times dx and what is the integral of dx/x ? Note I haven't cheched you separation of variables to see if you got the original fraction correct, fuzzwood already asked you for that and I don't see that either. Edited October 17, 2014 by studiot Link to comment Share on other sites More sharing options...
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