Algebra
Calculus
Trigonometry
Matrix
Question
Function
Find the first partial derivative with respect to m
Find the first partial derivative with respect to n
∂m∂p=n1
Simplify
p=nm
Find the first partial derivative by treating the variable n as a constant and differentiating with respect to m
∂m∂p=∂m∂(nm)
Use differentiation rule ∂x∂(g(x)f(x))=(g(x))2∂x∂(f(x))×g(x)−f(x)×∂x∂(g(x))
∂m∂p=n2∂m∂(m)n−m×∂m∂(n)
Use ∂x∂xn=nxn−1 to find derivative
∂m∂p=n21×n−m×∂m∂(n)
Use ∂x∂(c)=0 to find derivative
∂m∂p=n21×n−m×0
Any expression multiplied by 1 remains the same
∂m∂p=n2n−m×0
Any expression multiplied by 0 equals 0
∂m∂p=n2n−0
Removing 0 doesn't change the value,so remove it from the expression
∂m∂p=n2n
Solution
More Steps
Evaluate
n2n
Use the product rule aman=an−m to simplify the expression
n2−11
Reduce the fraction
n1
∂m∂p=n1
Show Solution
Solve the equation
Solve for m
Solve for n
m=np
Evaluate
p=nm
Swap the sides of the equation
nm=p
Solution
m=np
Show Solution