Roll No. [ LTI T] | Total No. of Pages : 02
Total No. of Questions : 09
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B.Tech. (Electrical & Electronics Engg./Electronics & Electrical ENgg.)
(2018 Batch) (Sem.-3)
ELECTROMAGNETIC FIELDS
Subject Code : BTEEE-304-18
M.Code : 76466
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Time : 3 Hrs. Max. Marks : 60
INSTRUCTIONS TO CANDIDATES :
- SECTION-A is COMPULSORY consisting of TEN questions carrying TWO marks each.
- SECTION-B contains FIVE questions carrying FIVE marks each and students have to attempt any FOUR questions.
- SECTION-C contains THREE questions carrying TEN marks each and students have to attempt any TWO questions.
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SECTION-A
- Write briefly :
- Find D at P (6, 8,-10) due to a uniform line charge p;, = 30 uC/m on z-axis.
- Prove using unit vector concept that cylindrical and spherical co-ordinate systems are orthogonal.
- For a solenoidal vectorfield F show that VxVxVxVxF=V'F .
- State and derive Poynting theorem.
- Define an electric dipole. Obtain the potential at a point P due to an electric dipole.
- Write down the geometrical significance of cross product of two vectors.
- If a potential V = x’yz + 4y’z, (i) find A so that Laplace’s equation is satisfied (1) with the value of A, determine electric field at (2, 1, —1).
- Distinguish between transformer and motional emf.
- Derive the expression for curl of a vector field in spherical coordinate system.
- Define skin depth.
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SECTION-B
- Prove that : (BxC).(AxD)+(CxA).(BxD)+(AxB).(CxD)=0. Hence show that, sin (6 +¢) sin (6 — ¢) = sin”> 6 — sin¢.
- State and prove Stoke’s theorem.
- If Aand B are irrotational, prove that A x B is solenoidal.
- Show that E and H are in time phase with each other for a lossless dielectric medium.
- Obtain the intrinsic impedance for an EM wave propagating through free space.
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SECTION-C
- Verify the divergence theorem
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qSSA.dsz jvv.A dv
For each of the following cases :- A =xy’a, + y’a, + y’za. and-S is the surface of the cuboid defined by 0 < x < 1, 0<y<1,0<z<1
- A =2pza,+ 3z sin ¢ay - 4p cos ¢a. and S is the surface of the wedge 0 < p < 2, 0<p<45°,0<z<85.
- A=ra,+rsind cos ¢ ap and S is the surface of a quarter of a sphere defined by 0<r<3,0<¢p<m2,0<6<m2.
- What is magnetic vector potential? Discuss its physical significance. Derive Biot Savart’s law and Ampere’s Circuital law from the concept of magnetic vector potential.
- Develop the Maxwell’s equations for time-varying and time-harmonic fields. Explain the concept of displacement current in this context.
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NOTE : Disclosure of Identity by writing Mobile No. or Making of passing request on any page of Answer Sheet will lead to UMC against the Student.
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This download link is referred from the post: PTU B.Tech Question Papers 2020 March (All Branches)