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x^2 x^{\msquare} \log_{\msquare} \sqrt{\square} \nthroot[\msquare]{\square} \le \ge \frac{\msquare}{\msquare} \cdot \div x^{\circ} \pi
\left(\square\right)^{'} \frac{d}{dx} \frac{\partial}{\partial x} \int \int_{\msquare}^{\msquare} \lim \sum \infty \theta (f\:\circ\:g) f(x)
▭\:\longdivision{▭} \times \twostack{▭}{▭} + \twostack{▭}{▭} - \twostack{▭}{▭} \left( \right) \times \square\frac{\square}{\square}
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x^2 x^{\msquare} \log_{\msquare} \sqrt{\square} \nthroot[\msquare]{\square} \le \ge \frac{\msquare}{\msquare} \cdot \div x^{\circ} \pi
\left(\square\right)^{'} \frac{d}{dx} \frac{\partial}{\partial x} \int \int_{\msquare}^{\msquare} \lim \sum \infty \theta (f\:\circ\:g) f(x)
- \twostack{▭}{▭} \lt 7 8 9 \div AC
+ \twostack{▭}{▭} \gt 4 5 6 \times \square\frac{\square}{\square}
\times \twostack{▭}{▭} \left( 1 2 3 - x
▭\:\longdivision{▭} \right) . 0 = + y
\mathrm{laplace} \mathrm{bernoulli} \mathrm{substitution} \mathrm{linear} \mathrm{exact}
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Number Line

Related
Ordinary Differential Equations (ODE) Examples
  • 2y'-y=4\sin(3t)
  • ty'+2y=t^2-t+1
  • y'=e^{-y}(2x-4)
  • \frac{dr}{d\theta}=\frac{r^2}{\theta}
  • y'+\frac{4}{x}y=x^3y^2
  • y'+\frac{4}{x}y=x^3y^2, y(2)=-1
  • laplace\:y^{\prime}+2y=12\sin(2t),y(0)=5
  • bernoulli\:\frac{dr}{dθ}=\frac{r^2}{θ}
Description
Solve ordinary differential equations (ODE) step-by-step
Frequently Asked Questions (FAQ)
  • How do you calculate ordinary differential equations?
  • To solve ordinary differential equations (ODEs), use methods such as separation of variables, linear equations, exact equations, homogeneous equations, or numerical methods.
  • Which methods are used to solve ordinary differential equations?
  • There are several methods that can be used to solve ordinary differential equations (ODEs) to include analytical methods, numerical methods, the Laplace transform method, series solutions, and qualitative methods.
  • Is there an app to solve differential equations?
  • To solve ordinary differential equations (ODEs) use the Symbolab calculator. It can solve ordinary linear first order differential equations, linear differential equations with constant coefficients, separable differential equations, Bernoulli differential equations, exact differential equations, second order differential equations, homogenous and non homogenous ODEs equations, system of ODEs, ODE IVP's with Laplace Transforms, series solutions to differential equations, and more.
  • What is the difference between ODE and PDE?
  • An ordinary differential equation (ODE) is a mathematical equation involving a single independent variable and one or more derivatives, while a partial differential equation (PDE) involves multiple independent variables and partial derivatives. ODEs describe the evolution of a system over time, while PDEs describe the evolution of a system over space and time.
  • What is the importance of studying ordinary differential equations?
  • Ordinary differential equations (ODEs) help us understand and predict the behavior of complex systems, and for that, it is a fundamental tool in mathematics and physics.
  • What is the numerical method?
  • Numerical methods are techniques for solving problems using numerical approximation and computation. These methods are used to find approximate solutions to problems that cannot be solved exactly, or for which an exact solution would be difficult to obtain.
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