MCQOPTIONS
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MCQOPTIONS
This section includes 9 Mcqs, each offering curated multiple-choice questions to sharpen your Ordinary Differential Equations knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
Find the P.I for the given Differential Equation. (16x^2 frac{d^2 y}{dx^2}+(2x+4) frac{dy}{dx}+4x(x+4) frac{d^2 y}{dx^2}+2y=cos (log (2x+4)) ) |
| A. | ( frac{1}{4} (-sin u2061(log u2061(2x+4))+cos u2061(log u2061(2x+4))) ) |
| B. | ( frac{1}{4} (-sin u2061(log u2061(2x+4))-cos u2061(log u2061(2x+4))) ) |
| C. | ( frac{1}{2} (-sin u2061(log u2061(2x+4))-cos u2061(log u2061(2x+4))) ) |
| D. | ( frac{1}{2} (-sin u2061(log u2061(2x+4))+cos u2061(log u2061(2x+4))) ) |
| Answer» C. ( frac{1}{2} (-sin u2061(log u2061(2x+4))-cos u2061(log u2061(2x+4))) ) | |
| 2. |
Find the C.F for the given Higher Order Differential Equation. (x^2 frac{d^2 y}{dx^2}+3(x+2) frac{dy}{dx}+4(1+x) frac{d^2 y}{dx^2}+2y=x ) |
| A. | ( frac{1}{(x+1)} (c_1cos u2061(log u2061(x+2))+c_2sin u2061(log u2061(x+2))) ) |
| B. | ( frac{1}{(x+2)} (c_1cos u2061(log u2061(x+2))+c_2cos u2061(log u2061(x+2))) ) |
| C. | ( frac{1}{(x+1)} (c_1cos u2061(log u2061(x+1))+c_2sin u2061(log u2061(x+1))) ) |
| D. | ( frac{1}{(x+2)} (c_1cos u2061(log u2061(x+2))+c_2sin u2061(log u2061(x+2))) ) |
| Answer» E. | |
| 3. |
Find the solution for the given Higher Order Differential Equation. (2(3x+5)^2 frac{d^2 y}{dx^2}+(3x+5) frac{dy}{dx}+y=sin (log (3x+5)) ) |
| A. | (c_1(3x+5)^{0.76}+ c_2(3x+5)^{0.073}+ frac{-(15(cos u2061(log u2061(3x+5))+17 sin u2061(log u2061(3x+5)))))}{64} ) |
| B. | (c_1(3x+5)^{0.76}+ c_2(3x+7)^{0.073}+ frac{-(15(cos u2061(log u2061(3x+5))+17 sin u2061(log u2061(3x+5)))))}{64} ) |
| C. | (c_1(3x+5)^{0.76}+ c_2(3x+7)^{0.073}+ frac{-(15(cos u2061(log u2061(3x+5))+17 sin u2061(log u2061(3x+5)))))}{16} ) |
| D. | (c_1(3x+5)^{0.76}+ c_2(3x+5)^{0.073}+ frac{-(15(cos u2061(log u2061(3x+5))+17 sin u2061(log u2061(3x+5)))))}{16} ) |
| Answer» B. (c_1(3x+5)^{0.76}+ c_2(3x+7)^{0.073}+ frac{-(15(cos u2061(log u2061(3x+5))+17 sin u2061(log u2061(3x+5)))))}{64} ) | |
| 4. |
Find the C.F for the following Differential Equation. ((3x+2)^3 frac{d^3y}{dx^3}+2(3x+2)^2 frac{d^2 y}{dx^2}+(3x+2) frac{dy}{dx}-y=(3x+2)^2 ) |
| A. | (c_1(3x+2)^{0.022}+(3x+2)^{1.15}(c_2 cos u2061(0.22 log u2061(3x+2))+c_3 sin(0.22 log u2061(3x+2))) ) |
| B. | (c_1(3x+2)^{0.022}+(3x+2)^{1.15}(c_2 cos u2061(0.22 log u2061(3x+3))+c_3 sin(0.22 log u2061(3x+2))) ) |
| C. | (c_1(3x+2)^{0.026}+(3x+2)^{1.15}(c_2 cos u2061(0.22 log u2061(3x+2))+c_3 sin(0.22 log u2061(3x+2))) ) |
| D. | (c_1(3x+2)^{0.022}+(3x+2)^{1.15}(c_2 sin u2061(0.22 log u2061(3x+2))+c_3 sin(0.22 log u2061(3x+2))) ) |
| Answer» D. (c_1(3x+2)^{0.022}+(3x+2)^{1.15}(c_2 sin u2061(0.22 log u2061(3x+2))+c_3 sin(0.22 log u2061(3x+2))) ) | |
| 5. |
Solve this Differential Equation to find its General Solution. ((x+3) frac{d^2y}{dx^2}+2 frac{dy}{dx}+ frac{y}{(x+3)}=4 ) |
| A. | ( frac{4x}{3}+2+ frac{1}{(x+3)} c_1cos u2061( frac{ sqrt{3}}{2} log u2061(x+3))+c_2sin u2061( frac{ sqrt{3}}{2} log u2061(x+3)) ) |
| B. | ( frac{4x}{3}+4+ frac{1}{(x+3)} c_1cos u2061( frac{ sqrt{3}}{2} log u2061(x+3))+c_2sin u2061( frac{ sqrt{3}}{2} log u2061(x+3)) ) |
| C. | (x+4+ frac{1}{(x+3)} c_1cos u2061( frac{ sqrt{3}}{2} log u2061(x+3))+c_2sin u2061( frac{ sqrt{3}}{2} log u2061(x+3)) ) |
| D. | ( frac{2x}{3}+4+ frac{1}{(x+3)} c_1cos u2061( frac{ sqrt{3}}{2} log u2061(x+3))+c_2sin u2061( frac{ sqrt{3}}{2} log u2061(x+3)) ) |
| Answer» C. (x+4+ frac{1}{(x+3)} c_1cos u2061( frac{ sqrt{3}}{2} log u2061(x+3))+c_2sin u2061( frac{ sqrt{3}}{2} log u2061(x+3)) ) | |
| 6. |
Find the P.I of the given Differential Equation. ((x+1)^2 frac{d^2 y}{dx^2}+(x+1) frac{dy}{dx}+y=sin (log (1+x)) ) |
| A. | -log u2061(x+1) ( frac{cos u2061(log u2061(x+1))}{2} ) |
| B. | -log u2061(x+1) ( frac{sin u2061(log u2061(x+1))}{2} ) |
| C. | log u2061(x+1) ( frac{cos u2061(log u2061(x+1))}{2} ) |
| D. | -log u2061(x+2) ( frac{cos u2061(log u2061(x+1))}{2} ) |
| Answer» B. -log u2061(x+1) ( frac{sin u2061(log u2061(x+1))}{2} ) | |
| 7. |
Find the C.F of the following Differential Equation. ((2x+3)^2 frac{d^2 y}{dx^2} + (2x+3) frac{dy}{dx} 2y = x ) |
| A. | (c_1(2x+3)+ c_2(2x+3)^ frac{-1}{2} ) |
| B. | (c_1(2x+3)+ c_2(2x+3)^ frac{1}{2} ) |
| C. | (c_1(2x+3)+ c_2(2x+3)^ frac{-3}{2} ) |
| D. | (c_1(2x+3)+ c_2(2x+3)^ frac{-1}{2} ) |
| Answer» B. (c_1(2x+3)+ c_2(2x+3)^ frac{1}{2} ) | |
| 8. |
Find the Continuous Function and Particular Integral for the given differential equation. ((2x+3) frac{dy}{dx}-3y=8x ) |
| A. | (c_1(2x+3)^ frac{5}{2}, -4(2x+3)-4 ) |
| B. | (c_1(2x+3)^ frac{3}{2}, -2(2x+3)-4 ) |
| C. | (c_1(2x+3)^ frac{3}{2}, -4(2x+3)-4 ) |
| D. | (c_1(2x+3)^ frac{3}{2}, -4(2x+3)-4 ) |
| Answer» D. (c_1(2x+3)^ frac{3}{2}, -4(2x+3)-4 ) | |
| 9. |
Find the General Solution of the given differential equation. ((8x+7) frac{dy}{dx}+2y=x ) |
| A. | (c_1( frac{1}{(8x+7)})^ frac{1}{4}+ frac{(8x+7)}{40}- frac{5}{16} ) |
| B. | (c_1( frac{1}{(8x+7)})^ frac{1}{4}+ frac{(8x+7)}{80}- frac{7}{8} ) |
| C. | (c_1( frac{1}{(8x+7)})^ frac{1}{4}+ frac{(8x+7)}{40}- frac{7}{16} ) |
| D. | (c_1( frac{1}{(8x+7)})^ frac{1}{4}+ frac{(8x+7)}{80}- frac{7}{16} ) |
| Answer» E. | |