what is the orthagonal form of the following equation: x(du/dx) + u = (2u/(u^2 +1)) ?

Solve the separable differential equation for u du/dt = e^2u + 9t . Use the following...

Solve the separable differential equation for u du/dt = e^2u + 9t . Use the following initial condition: u ( 0 ) = 12 . u =____________________

Solve the differential equation: x*(du(x)/dx)=[x-u(x)]^2+u(x) Hint: Let y=x-u(x) Answer: u(x)=x-x/(x-K) with K=constant

Solve the differential equation: x*(du(x)/dx)=[x-u(x)]^2+u(x) Hint: Let y=x-u(x) Answer: u(x)=x-x/(x-K) with K=constant

A Bernoulli differential equation is one of the form dy/dx+P(x)y=Q(x)y^n (∗) Observe that, if n=0 or...

A Bernoulli differential equation is one of the form dy/dx+P(x)y=Q(x)y^n (∗) Observe that, if n=0 or 1, the Bernoulli equation is linear. For other values of n, the substitution u=y^(1−n) transforms the Bernoulli equation into the linear equation du/dx+(1−n)P(x)u=(1−n)Q(x). Consider the initial value problem xy′+y=−8xy^2, y(1)=−1. (a) This differential equation can be written in the form (∗) with P(x)=_____, Q(x)=_____, and n=_____. (b) The substitution u=_____ will transform it into the linear equation du/dx+______u=_____. (c) Using the substitution in part...

If y=ux then dy/dx=(u+x du/dx) i need explination how we got this??

If y=ux then dy/dx=(u+x du/dx) i need explination how we got this??

A Bernoulli differential equation is one of the form dxdy+P(x)y=Q(x)yn Observe that, if n=0 or 1,...

A Bernoulli differential equation is one of the form dxdy+P(x)y=Q(x)yn Observe that, if n=0 or 1, the Bernoulli equation is linear. For other values of n, the substitution u=y^(1−n) transforms the Bernoulli equation into the linear equation du/dx+(1−n)P(x)u=(1−n)Q(x) Use an appropriate substitution to solve the equation y'−(3/x)y=y^4/x^2 and find the solution that satisfies y(1)=1

Consider the following differential equation: dy/dx = −(3xy+y^2)/x^2+xy (a) Rewrite this equation into the form M(x,...

Consider the following differential equation: dy/dx = −(3xy+y^2)/x^2+xy (a) Rewrite this equation into the form M(x, y)dx + N(x, y)dy = 0. Determine if this equation is exact; (b) Multiply x on both sides of the equation, is the new equation exact? (c) Solve the equation based on Part (a) and Part (b).

Solve the differential equation: dy/dx - y =e^x*y^2 (Using u=y^-1)

Solve the differential equation: dy/dx - y =e^x*y^2 (Using u=y^-1)

Identify the correct substitution (using u, du) to make in each of the following integrals. Then,...

Identify the correct substitution (using u, du) to make in each of the following integrals. Then, compute the integral. a)  ∫ 8x(x²-3)⁷dx b)  ∫ [√cot(x)] csc²(x) dx c)  ∫ cos(x)(sin³(x)+3sin²(x)a²+a³)dx where a is some real number (Hint for C: Work smarter not harder)

Solve (∂^2u/ ∂x^2) + (∂^2u /∂y^2) = 0 for 0 < y < H, −∞ <...

Solve (∂^2u/ ∂x^2) + (∂^2u /∂y^2) = 0 for 0 < y < H, −∞ < x < ∞, subject to u(x,0) = f1 (x) and u(x,H) = f2 (x).

To compute the integral ∫cos3(x)esin(x)dx, we should use first the substitution u= __________ to obtain the...

To compute the integral ∫cos3(x)esin(x)dx, we should use first the substitution u= __________ to obtain the integral ∫F(u)du, where F(u)= __________ To compute the integral ∫F(u)du, we use the method of integration by parts with f(u)= __________ and g′(u)= __________ to get ∫F(u)du=G(u)−∫H(u)du , where G(u)= __________ and H(u)= __________ Now, to compute the integral ∫H(u)du, we need to use the method of integration by parts a second time with f(u)= __________ and g′(u)= __________ to get ∫H(u)du= __________ +C...