The degree of the differential equation \(\bigg(\frac{d^2y}{dx^2}\bigg)^3+\bigg(\frac{dy}{dx}\bigg)^2+\sin\bigg(\frac{dy}{dx}\bigg)+1=0\) is
The degree of the differential equation \(\bigg(\frac{d^2y}{dx^2}\bigg)^3+\bigg(\frac{dy}{dx}\bigg)^2+\sin\bigg(\frac{dy}{dx}\bigg)+1=0\) is
3
2
1
Not Defined
The Correct Option is D
Solution and Explanation
\(\bigg(\frac{d^2y}{dx^2}\bigg)^3+\bigg(\frac{dy}{dx}\bigg)^2+\sin\bigg(\frac{dy}{dx}\bigg)+1=0\)
The given differential equation is not a polynomial equation in its derivatives.
Therefore, its degree is not defined.
Hence, the correct answer is D (Not Defined).
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Concepts Used:
Order and Degree of Differential Equation
The equation that helps us to identify the type and complexity of the differential equation is the order and degree of a differential equation.
The Order of a Differential Equation:
The highest order of the derivative that appears in the differential equation is the order of a differential equation.
The Degree of a Differential Equation:
The highest power of the highest order derivative that appears in a differential equation is the degree of a differential equation. Its degree is always a positive integer.
For examples:
- 7(d4y/dx4)3 + 5(d2y/dx2)4+ 9(dy/dx)8 + 11 = 0 (Degree - 3)
- (dy/dx)2 + (dy/dx) - Cos3x = 0 (Degree - 2)
- (d2y/dx2) + x(dy/dx)3 = 0 (Degree - 1)