ECE102 FE Quiz - Gecko PDF

Summary

This document contains a set of practice questions for an engineering course (likely ECE102), covering coordinate systems, vector operations, and basic physics concepts. The questions explore spherical, cylindrical, and Cartesian coordinates, along with other related physics topics.

Full Transcript

1. The three coordinate axes mutually at right angles to each other, and call them the x, y, and z axes.

A. Cartesian coordinate
B. Cylindrical coordinate
C. Spherical coordinate
D. 3D coordinate

Answer: A

2. Express the unit vector 𝑎𝑥 in spherical components at the point: 𝑥 = 3, 𝑦 = 2, 𝑧 = −1

A. 0.80𝑎𝑟 − 0.22𝑎𝜃 − 0.55𝑎𝜙
B. 0.66𝑎𝑟 + 0.39𝑎𝜃 − 0.64𝑎𝜙
C. 0.59𝑎𝑟 − 0.38𝑎𝜃 − 0.72𝑎𝜙
D. 0.36𝑎𝑟 − 0.11𝑎𝜃 − 0.46𝑎𝜙

Answer: A

3. Time is classified as:
A. Scalar
B. Vector
C. Magnitudinal
D. CGS
Answer: A

4. Magnetic field is classified as:
A. Scalar
B. Vector
C. Magnitudinal
D. CGS
Answer: B

5. It is define as the vector force on a unit positive test charge and has a unit of volts per meter (𝑉/𝑚)
or Newtons per Coulumb (𝑁/𝐶).
A. Current field intensity
B. Electric field intensity
C. Electric flux density
D. Current flux density
Answer: B

6. It is defined as the product of the magnitude of A, the magnitude of B, and the cosine of the smaller
angle between them.
A. Cross product
B. Dot product
C. Both cross product and dot product
 D. None of the choices
Answer: B

7. It is equal to the product of the magnitudes of A, B, and the sine of the smaller angle between A and
B.
A. Cross product
B. Dot product
C. Both cross product and dot product
D. None of the choices
Answer: A

8. It is the three-dimensional version of the polar coordinate of analytic geometry
A. Cartesian coordinate
B. Cylindrical coordinate
C. Spherical coordinate
D. 3D coordinate
Answer: B

9. Given the points 𝑀(0.1, −0.2, −0.1), 𝑁(−0.2, 0.1, 0.3), and 𝑃(0.4, 0, 0.1), find the angle between
𝑅𝑀𝑁 and 𝑅𝑀𝑃
A. 68°
B. 78°
C. 88°
D. 98°
Answer: B

10. Area is classified as
A. Scalar
B. Vector
C. Magnitudinal
D. CGS
Answer: A

11. Find the vector component of 𝐹 = (10, −6, 5) that is parallel to 𝐺 = (0.1, 0.2, 0.3).
A. (−0.93, −1.86, −2.79)
B. (0.93, 1.86,2.79)
C. (−0.93, 1.86, −2.79)
D. (0.93, −1.86, 2.79)
Answer: B

12. It is an axial or rotational vector whose magnitude is the maximum circulation of per unit area.
A. Gradient of a scalar
B. Curl of a vector
C. Divergence of a vector
 D. Laplacian of a scalar
Answer: B

13. Express point 𝑃(3, 4, −6) in terms of cylindrical coordinate system.
A. (5, 126.87°, −6)
B. (5, 53.13°, −6)
C. (7.81, 223.13°, −6)
D. (7.81, 306.87°, −6)
Answer: B

14. The force expressed by Coulomb’s Law is a/an ______ force, for each of the two charges
experiences a force of the same magnitude, although opposite in direction.
A. mutual
B. equidistant
C. opposite
D. None of the choices
Answer: A

15. A ______________ is not restricted in any way. It is completely defined by its magnitude and
direction and can be drawn as any one of a set of equal length parallel lines.
A. free vector
B. line vector
C. position vector
D. reference vector
Answer: A

16. Electric Field Density is classified as
A. Scalar
B. Vector
C. Magnitudinal
D. CGS
Answer: B

17. Find the angle between the pairs of vectors; 𝒂 = 𝑎𝑥 − 𝑎𝑦 − 2𝑎𝑧 , 𝒃 = 2𝑎𝑥 + 𝑎𝑦 + 3𝑎𝑧.
A. 60°
B. 123.06°
C. 160°
D. 84.26°
Answer: B

18. It is measured in Coulombs per square meter.
A. Current field intensity
B. Electric field intensity
C. Electric flux density
 D. Current flux density
Answer: C

19. A ____________ is such that it can slide along its line of action, e.g. a mechanical force acting on a
body.
A. free vector
B. line vector
C. position vector
D. reference vector
Answer: B

20. At point 𝑃(−3, 4, 5), express the vector that extends from 𝑃 to 𝑄(2, 0, −1) in cylindrical
coordinates.
A. 1.6𝑎𝜌 + 6.2𝑎𝜙 − 5𝑎𝑧
B. −6.2𝑎𝜌 − 1.60𝑎𝜙 − 6𝑎𝑧
C. 6.2𝑎𝜌 + 1.60𝑎𝜙 − 6𝑎𝑧
D. −6.20𝑎𝜌 − 1.60𝑎𝜙 + 5𝑎𝑧
Answer: C

21. Calculate the distance between each pair of points (1, 0, 2) and (−2, 1, −3)
A. 5.9161
B. 6.4031
C. 2.4495
D. 6
Answer: A

22. Determine an expression for 𝑎𝑦 in spherical coordinates at 𝑃(𝑟 = 4, 𝜃 = 0.2𝜋, 𝜙 = 0.8𝜋).
A. 0.35𝑎𝑟 − 0.48𝑎𝜃 − 0.81𝑎𝜙
B. 0.35𝑎𝑟 + 0.48𝑎𝜃 − 0.81𝑎𝜙
C. −0.35𝑎𝑟 − 0.48𝑎𝜃 − 0.81𝑎𝜙
D. 0.35𝑎𝑟 + 0.48𝑎𝜃 + 0.81𝑎𝜙
Answer: B

23. Acceleration is classified as:
A. Scalar
B. Vector
C. Magnitudinal
D. CGS
Answer: B

24. The surfaces 𝑟 = 2 and 4 , 𝜃 = 30° and 50° , and 𝜙 = 20° and 60° identify a closed surface. Find
the enclose volume.
A. 1.91
B. 2.91
 C. 3.91
D. 4.91
Answer: B

25. Express the unit vector 𝑎𝑥 in spherical at the point; 𝜌 = 2.5, 𝜙 = 0.7 𝑟𝑎𝑑, 𝑧 = 1.5.
A. 0.80𝑎𝑟 − 0.22𝑎𝜃 − 0.55𝑎𝜙
B. 0.66𝑎𝑟 + 0.39𝑎𝜃 − 0.64𝑎𝜙
C. 0.59𝑎𝑟 + 0.38𝑎𝜃 − 0.72𝑎𝜙
D. 0.36𝑎𝑟 + 0.11𝑎𝜃 − 0.46𝑎𝜙
Answer: B

26. Express the unit vector 𝑎𝑥 in spherical at the point; 𝜌 = 2.5, 𝜙 = 0.7 𝑟𝑎𝑑, 𝑧 = 1.5.
A. 0.80𝑎𝑟 − 0.22𝑎𝜃 − 0.55𝑎𝜙
B. 0.66𝑎𝑟 + 0.39𝑎𝜃 − 0.64𝑎𝜙
C. 0.59𝑎𝑟 + 0.38𝑎𝜃 − 0.72𝑎𝜙
D. 0.36𝑎𝑟 + 0.11𝑎𝜃 − 0.46𝑎𝜙
Answer: C

27. It states that the total outward flux of a vector field through a closed surface is the same as the
volume integral of the divergence.
A. Gradient theorem
B. Laplacian theorem
C. Divergence theorem
D. Stoke’s theorem
Answer: C

28. Which of the following is not true about unit vectors?
A. It has a magnitude of unity.
B. It is equal to a particular vector divided by its magnitude.
C. It is not a vector.
D. None of the choices.
Answer: C

29. The electric flux passing through any closed surface is equal to the total charge enclosed by that
surface.
A. Coulombs Law
B. Gauss Law
C. Newton First Law
D. Faraday’s Law
Answer: B

30. Calculate the distance of the points (−2, 1, −3) from the origin.
A. 2.2361
B. 3.7416
 C. 4.2426
D. 6
Answer: B

31. A uniform volume charge density of 80 𝜇𝐶/𝑚2 is present throughout the region 8 𝑚𝑚 < 𝑟 <
10 𝑚𝑚. Let 𝜌𝑣 = 0 for 0 < 𝑟 < 8 𝑚𝑚. Find the total charge inside the spherical surface 𝑟 =
10 𝑚𝑚.
A. 161 𝑝𝐶
B. 162 𝑝𝐶
C. 163 𝑝𝐶
D. 164 𝑝𝐶
Answer: D

32. A ____________ occurs when the reference point is fixed.
A. free vector
B. line vector
C. position vector
D. reference vector
Answer: A

33. Convert the point (3, 4, 5) from Cartesian to spherical coordinates
A. (7.07, 45°, 53°)
B. (0.707, 45°, 53°)
C. (7.07, 54°, 63°)
D. (0.707, 54°, 63°)
Answer: A

34. Find the Cartesian coordinates of 𝐵(4, 25°, 120°)
A. (0.845, 1.462, 3.625)
B. (−0.845, 1.462, 3.625)
C. (−8.45, 1.462, 3.625)
D. (8.45, 1.462, 3.625)
Answer: B

35. The circular coordinate system is also referred to as
A. Cartesian system
B. Cylindrical system
C. Spherical system
D. Space system
Answer: B

36. The Cartesian system is also called as
A. Circular coordinate system
B. Rectangular coordinate system
C. Spherical coordinate system
 D. Space coordinate system
Answer: B

37. The angular separation between the vectors 𝐴 = 4𝑖 + 3𝑗 + 5𝑘 and 𝐵 = 𝑖 − 2𝑗 + 2𝑘 is
A. 65.8°
B. 66.8°
C. 67.8°
D. 68.8°
Answer: C

38. The polar form of Cartesian coordinates is
A. Cylindrical coordinates
B. Spherical coordinates
C. Space coordinates
D. 3D coordinates
Answer: A

39. The Laplacian operator is
A. ∇𝑉
B. ∇ ∙ 𝑉
C. ∇ × 𝑉
D. ∇2 𝑉
Answer: D

40. When two vectors are perpendicular, their
A. Dot product is zero
B. Cross product is zero
C. Both are zero
D. Cross product is unity
Answer: A

41. The cross product of the vectors 3𝑖 + 4𝑗 − 5𝑘 and −𝑖 + 𝑗 − 2𝑘 is,
A. 3𝑖 − 11𝑗 + 7𝑘
B. −3𝑖 + 11𝑗 + 7𝑘
C. −3𝑖 − 11𝑗 − 7𝑘
D. −3𝑖 + 11𝑗 − 7𝑘
Answer: B

42. Del operator is also known as _____
A. Divergence operator
B. Gradient operator
C. Curl operator
D. Laplacian operator
Answer: B
43. Find the gradient of a function 𝑉 if 𝑉 = 𝑥𝑦𝑧
A. 𝑦𝑧 𝑎𝑥 + 𝑥𝑧 𝑎𝑦 + 𝑥𝑦 𝑎𝑧
B. 𝑦𝑧 𝑎𝑥 + 𝑥𝑦𝑎𝑦 + 𝑥𝑧 𝑎𝑧
C. 𝑥𝑦 𝑎𝑥 + 𝑦𝑧 𝑎𝑦 + 𝑥𝑧 𝑎𝑧
D. 𝑥𝑦𝑧 𝑎𝑥 + 𝑥𝑦 𝑎𝑦 + 𝑦𝑧 𝑎𝑧
Answer: A

44. Find the gradient of 𝑉 = 𝑥 2 sin 𝑦 cos 𝑧
A. 2𝑥 sin 𝑦 cos 𝑧 𝑎𝑥 + 𝑥 2 cos 𝑦 cos 𝑧 𝑎𝑦 − 𝑥 2 sin 𝑦 sin 𝑧 𝑎𝑧
B. 2𝑥 sin 𝑦 cos 𝑧 𝑎𝑥 + 𝑥 2 cos 𝑦 cos 𝑧 𝑎𝑦 + 𝑥 2 sin 𝑦 sin 𝑧 𝑎𝑧
C. 2𝑥 cos 𝑦 sin 𝑧 𝑎𝑥 + 𝑥 2 cos 𝑦 cos 𝑧 𝑎𝑦 − 𝑥 2 sin 𝑦 sin 𝑧 𝑎𝑧
D. 𝑥 sin 𝑦 cos 𝑧 𝑎𝑥 + 𝑥 2 cos 𝑦 cos 𝑧 𝑎𝑦 − 𝑥 2 sin 𝑦 sin 𝑧 𝑎𝑧
Answer: A

45. What is the value of 𝑎𝑧 ∙ 𝑎𝑟
A. 1
B. cos 𝜃
C. sin 𝜃
D. 0
Answer: B

46. Find the distance between 𝐴(10, 30°, 60°) and 𝐵(8, 60°, 90°)
A. 4
B. 5
C. 6
D. 7
Answer: C

47. What is the value of 𝑎𝑟 ∙ 𝑎𝑥 ?
A. sin 𝜃 cos 𝜙
B. sin 𝜃 sin 𝜙
C. cos 𝜃 cos 𝜃
D. cos 𝜃 cos 𝜙
Answer: A

48. The Curl operator is
A. ∇𝑉
B. ∇ ∙ 𝑉
C. ∇ × 𝑉
D. ∇2 𝑉
Answer: C

49. The Divergence operator is
A. ∇𝑉
 B. ∇ ∙ 𝑉
C. ∇ × 𝑉
D. ∇2 𝑉
Answer: B

50. The Gradient operator is
A. ∇𝑉
B. ∇ ∙ 𝑉
C. ∇ × 𝑉
D. ∇2 𝑉
Answer: A