All Calculus 3 Resources
Example Questions
Example Question #53 : Line Integrals
Find the divergence of the vector
To find the divergence of the vector , we use the following formula
Applying to the vector from the problem statement, we get
Example Question #54 : Line Integrals
Find the divergence of the following vector field:
The divergence of a vector field is given by
where
When we take the dot product, we end up with the sum of the respective partial derivatives of the vector field.
To find the given partial derivative of the function, we must treat the other variable(s) as constants.
The partial derivatives are
, ,
Example Question #1701 : Calculus 3
Find the divergence of the following vector field:
The divergence of a vector field is given by
where
When we take the dot product, we end up with the sum of the respective partial derivatives of the vector field.
To find the given partial derivative of the function, we must treat the other variable(s) as constants.
The partial derivatives are
, ,
Example Question #41 : Divergence
Find the divergence of the following vector field:
The divergence of the vector field is given by
where
Taking the dot product gives us the sum of the respective partial derivatives of the vector field. For higher order partial derivatives, we work from left to right for the given variables.
The partial derivatives are
, ,
Example Question #1702 : Calculus 3
Find the divergence of the following vector field:
The divergence of the vector field is given by
where
Taking the dot product gives us the sum of the respective partial derivatives of the vector field. For higher order partial derivatives, we work from left to right for the given variables.
The partial derivatives are
, ,
Example Question #52 : Line Integrals
Find the divergence of the vector
To find the divergence of a vector , we apply the formula:
Using the vector from the problem statement, we get
Example Question #53 : Line Integrals
Find the divergence of the vector
To find the divergence of a vector , we apply the formula:
Using the vector from the problem statement, we get
Example Question #54 : Line Integrals
Find the divergence of the following vector field:
The divergence of the vector field
where
In taking the dot product, we get the sum of the respective partial derivatives of the vector field.
The partial derivatives are
, ,
Example Question #61 : Line Integrals
Find the divergence of the vector field:
The divergence of the vector field
where
In taking the dot product, we get the sum of the respective partial derivatives of the vector field.
The partial derivatives are
, ,
Example Question #62 : Line Integrals
Find the divergence of the following vector field:
The divergence of a vector field is given by
where
When we take the dot product of the gradient with the vector field, we get the sum of the respective partial derivatives of the vector field.
To find the given partial derivative of the function, we must treat the other variable(s) as constants.
The partial derivatives are
, ,