![Physics Ch 67.1 Advanced E&M: Review Vectors (88 of 113) Curl in Spherical Coordinates Ex. 1 - YouTube Physics Ch 67.1 Advanced E&M: Review Vectors (88 of 113) Curl in Spherical Coordinates Ex. 1 - YouTube](https://i.ytimg.com/vi/28OTBtWX0Rw/sddefault.jpg)
Physics Ch 67.1 Advanced E&M: Review Vectors (88 of 113) Curl in Spherical Coordinates Ex. 1 - YouTube
![SOLVED: The gradient, divergence, and curl in spherical polar coordinates r, θ, φ are given by ∇ = 8dâ‚'áµ£ + 60eâ‚'â‚' + 84eᵥᵣ sin(θ) ∂/∂r, 1/(r sin(θ)) ∂/∂θ, and 1/(r sin(θ)) ∂/∂φ SOLVED: The gradient, divergence, and curl in spherical polar coordinates r, θ, φ are given by ∇ = 8dâ‚'áµ£ + 60eâ‚'â‚' + 84eᵥᵣ sin(θ) ∂/∂r, 1/(r sin(θ)) ∂/∂θ, and 1/(r sin(θ)) ∂/∂φ](https://cdn.numerade.com/ask_images/d1d3d226e77548da83b8d5a08afbee87.jpg)
SOLVED: The gradient, divergence, and curl in spherical polar coordinates r, θ, φ are given by ∇ = 8dâ‚'áµ£ + 60eâ‚'â‚' + 84eᵥᵣ sin(θ) ∂/∂r, 1/(r sin(θ)) ∂/∂θ, and 1/(r sin(θ)) ∂/∂φ
![multivariable calculus - Derivation of $\nabla \times \textbf{u}$ in cylindrical coordinates - Mathematics Stack Exchange multivariable calculus - Derivation of $\nabla \times \textbf{u}$ in cylindrical coordinates - Mathematics Stack Exchange](https://i.stack.imgur.com/J2RYt.png)