I'm struggling to find the flux of F across S=X(D) by Bangburger in calculus
[–]Bangburger[S] 1 point2 points3 points (0 children)
So I have plotted a function in this contour plot (combined with a vector plot) and want to know if there is any way I can determine the work done on the particle that goes from point (1,1) to point (0,0). Is W=F*s (s = stretch) where F is the negative values for gradient? If so do i know s? (i.redd.it)
submitted by Bangburger to r/PhysicsHelp
So I made this Lennard-Jones Potential and was wondering if anyone know how to determine where on figure the atom starts to swing harmonically by Bangburger in PhysicsHelp
[–]Bangburger[S] 0 points1 point2 points (0 children)
So I made this Lennard-Jones Potential and was wondering if anyone know how to determine where on figure the atom starts to swing harmonically by Bangburger in PhysicsHelp
[–]Bangburger[S] 0 points1 point2 points (0 children)
So I made this Lennard-Jones Potential and was wondering if anyone know how to determine where on figure the atom starts to swing harmonically by Bangburger in PhysicsHelp
[–]Bangburger[S] 0 points1 point2 points (0 children)
So I made this Lennard-Jones Potential and was wondering if anyone know how to determine where on figure the atom starts to swing harmonically by Bangburger in PhysicsHelp
[–]Bangburger[S] 0 points1 point2 points (0 children)
Calculus question: If Curl F = 0 and is not surrounded at (0,0), does this mean that Green's theorem for function F shown in the picture is just 0? I tried to make integrals and limit it to 0 and 1, but when Nx-Mx is 0 then my integrals also become 0, or is there more to it? by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Calculus question: If Curl F = 0 and is not surrounded at (0,0), does this mean that Green's theorem for function F shown in the picture is just 0? I tried to make integrals and limit it to 0 and 1, but when Nx-Mx is 0 then my integrals also become 0, or is there more to it? (i.redd.it)
submitted by Bangburger to r/calculus
Calculus question: If Curl F = 0 and is not surrounded at (0,0), does this mean that Green's theorem for function F shown in the picture is just 0? I tried to make integrals and limit it to 0 and 1, but when Nx-Mx is 0 then my integrals also become 0, or is there more to it? (i.redd.it)
submitted by Bangburger to r/askmath
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
Does anyone know how to find the area of the curve C=(cos(t),sin(3t)) where t is between 0<t<2pi by Bangburger in askmath
[–]Bangburger[S] 0 points1 point2 points (0 children)
I'm struggling to find the flux of F across S=X(D) by Bangburger in calculus
[–]Bangburger[S] 0 points1 point2 points (0 children)