微分方程式 dr/dt = 3e^t/sqrt(1 - e^(2t))

自然対数の底e（ネイピア数）の定義・対数関数,指数関数の導関数【高校数学】微分法＃１３

g(t) = t^3 * e^(5t), Find the first and second derivatives of the function.

第一並進定理を用いたt^3e^(-7t)のラプラス変換

integrate 3e^3t + t from x=-1 to 0

Derivative of 100e^-0.1x/(1+3e^-0.9x) | Differentiation Walkthrough (Quotient Rule)

Laplace Transform of t^3 e^t using two different methods

導関数のラプラス変換: t^(3)e^(-2t)

y=3e^x+2logx+1/x^2 を微分する || 微分問題 4

2.7 Laplace Transforms of t^2e^{at} and t^3e^{at} - Differential Equations

Differentiate the following function. f(t)=3e^0.02t-23e^0.01t (d)/(dt)(3e^0.02t-23e^0.01t)=square

Calculus 2 | Solve the Differential Equation y'+3e^x+y=0

r(t)の微分 = e^(-t)i + 5j + 6te^tk

Enhanced Interactive Figures for Briggs Calculus 3e

Eliminate the parameter, x(t) = 4e^(t/4), y(t) = 3e^(t)

s = 2t^3/2 + 3e^2, find the derivative

3_3 Tangent Line Examples and Higher Order Derivatives

Separable Differential Equation: dy/dx = 3e^(2x) , y(0) = 5/2

Suppose that the Wronskian W(f,g) of f and g is 3e^(4t) and f(t)=e^(2t) then find g(t).

7.2-36 Use Laplace Transform to solve IVP y''-4y'=6e^3t - 3e^-t, y(0)=1, y'(0)=-1 | DE