指数関数の置換積分 - 原始微分 - 微積分

Solve the differential equation dy/dx + 3y = exp(2x).

Calculus Help: Integrating Factor - Differential Equations - dy/dx=3y+e^2x -

Evaluate the double integral e^2x+3y dx dy over the triangle bounded by x=0, y=0 and x+y=1

Calculus Help: Integrating Factor - Linear Differential Equations - dy/dx=e^2x-3y ,y=1,x=0

微積分ヘルプ：微分方程式：(2x-3y)dx+(2x-3y)dy=0 - 積分技法

EXACT EQUATIONS #08| (2x-3y) dx +(2y-3x) dy=0

First Order Linear Differential Equation by Integrating Factor dy/dx = 3y + e^(2x)

The differential equation find the general solution: dy/dx + 3y = e^-2x.

dy/dx = e^(2x - 3y) + 4x^2 * e^-3y

Evaluate ∫∫e2x+3y dxdy over the triangle bounded by the lines x=0, y=0 & x + y=1|Integral Calculus

Double Integration: Integral of e^(x + 3y) dx dy , x = 0 to 3, y = 0 to 1

Integration by Parts: Integral of e^(4x)cos(e^(2x)) dx

Solve: `(dy)/(dx)+3y=e^(-2x)`

∮_C (3x+4y)dx+(2x-3y)dy を評価する。ここで C は x の原点を中心とする半径 2 の円である。

d^2y/dx^2+4dy/dx+3y=e^2x #HigherOrderLinearDifferentialEquation L788

Integration By Parts

(dy)/(dx)+ 3y = e^(-2x) を解きます | クラス 12 | 微分方程式 | 数学 | Doubtnut

Evaluate the integral by reversing the order of integration

Separable Differential Equation: dy/dx +e^(2x-3y) = 0 , y(0)=2