Vectors & Equilibrium MCQs set 3 for NTS NAT-IM (Medical / Pre-Medical Track) Physics — 20 solved questions.
Q1. A student pulls a block with a 6 N force eastward and an 8 N force northward. What is the magnitude of the resultant force?
Answer: 10 N
Explanation: The formula R = sqrt(A^2 + B^2) applies when vectors are at 90 degrees. Option A fails because it ignores the vector direction.
Q2. In a three-dimensional Cartesian coordinate system, what is the result of the scalar product between the unit vectors i and j?
Answer: 0
Explanation: The dot product of perpendicular unit vectors is zero because cos(90) is zero. Option B is incorrect as it applies to parallel vectors.
Q3. A mechanic uses a wrench to loosen a nut. Which formula correctly represents the magnitude of the torque applied at an angle θ?
Answer: τ = r F sinθ
Explanation: Torque is the product of force and the perpendicular distance (l = r sinθ). Option B fails because it uses the parallel component.
Q4. A force of 10 N acts at an angle of 30 degrees with the positive x-axis. What is the magnitude of its horizontal component?
Answer: 10 cos(30) N
Explanation: The horizontal component is found using A cosθ. Option B is incorrect because it represents the vertical component in standard orientation.
Q5. When calculating the vector product of two vectors A and B, what is the orientation of the resulting vector relative to A and B?
Answer: Perpendicular to the plane of A and B
Explanation: The cross product of two vectors is always perpendicular to the plane containing them. Option A fails because it describes the dot product.
Q6. Two vectors are oriented in the same direction such that the angle between them is zero. What is the magnitude of their cross product?
Answer: 0
Explanation: The cross product magnitude is AB sinθ; since sin(0) is zero, the product is zero. Option A describes the dot product result.
Q7. A particle is located at a point P with coordinates (3, 4) in the xy-plane. What is the correct expression for its position vector?
Answer: r = 3i + 4j
Explanation: The position vector is defined as r = xi + yj. Option B is incorrect because it swaps the unit vectors for the coordinates.
Q8. A heavy crate rests motionless on a horizontal floor. Which mathematical condition must be satisfied for the translational equilibrium of the crate?
Answer: ΣF = 0
Explanation: Static equilibrium requires the vector sum of all forces to be zero. Option D is incorrect because it only considers one dimension.
Q9. Given two vectors A = i + j and B = 3i + 4j, what is the approximate angle between them calculated using the dot product formula?
Answer: 45 degrees
Explanation: Using cosθ = (A.B)/(|A||B|), (3+4+0)/(sqrt(26)*sqrt(2)) leads to 45 degrees. Option A is a common guess for perpendicular vectors.
Q10. A 50 cm long rod is pivoted at one end. A force of 10 N is applied at the other end at 30 degrees. What is the torque?
Answer: 2.5 Nm
Explanation: Torque is r multiplied by the perpendicular component of F. Option D fails because it uses the wrong trigonometric function for the lever arm.
Q11. If the magnitude of the resultant of two equal vectors is equal to the magnitude of either vector, what is the angle between them?
Answer: 120 degrees
Explanation: If R=A=B, the law of cosines R^2 = A^2 + B^2 + 2AB cosθ requires cosθ = -1/2. Option A is for perpendicular vectors.
Q12. At what specific angle between two non-zero vectors will the magnitude of their scalar product be equal to the magnitude of their vector product?
Answer: 45 degrees
Explanation: AB cosθ = AB sinθ implies tanθ = 1, so θ = 45 degrees. Option B is where the cross product is maximum.
Q13. Three vectors of equal magnitude A are joined head-to-tail to form an equilateral triangle. What is the magnitude of their resultant vector?
Answer: 0
Explanation: If vectors form a closed loop, the start and end points coincide, making the resultant zero. Option A assumes they add linearly.
Q14. A force F = 3i + 4j Newtons displaces a body by d = 2i + 3j meters. What is the work done by the force?
Answer: 18 J
Explanation: Work is the dot product F.d = (3*2) + (4*3) = 18. Option B is incorrect because it adds components without multiplying.
Q15. A uniform plank is balanced on a sharp pivot at its center. Which condition specifically ensures the plank does not rotate when weights are added?
Answer: Στ = 0
Explanation: Second condition of equilibrium (Στ = 0) prevents rotation. Option A only ensures the object does not move linearly.
Q16. What is the unit vector in the direction of the vector A = 3i + 4j?
Answer: (3i + 4j) / 5
Explanation: A unit vector is the vector divided by its magnitude (sqrt(3^2 + 4^2) = 5). Option C incorrectly uses the square of the magnitude.
Q17. Two vectors have magnitudes of 10 units and 5 units. What is the ratio of the maximum possible resultant to the minimum possible resultant?
Answer: 3.0
Explanation: Rmax = A+B and Rmin = A-B. (A+B)/(A-B) = 15/5 = 3. Option A ignores the subtraction in the denominator.
Q18. Which mathematical vector operation correctly defines the torque vector τ in terms of position vector r and force vector F?
Answer: r x F
Explanation: Torque is defined as r x F. F x r results in the opposite direction. Option C is a scalar and cannot represent torque.
Q19. A block of weight W is held in equilibrium on a frictionless incline of angle θ by a string. What is the tension?
Answer: W sinθ
Explanation: The component of weight acting down the plane is W sinθ. Option A is the normal force component.
Q20. If the magnitude of the sum of two vectors is equal to the magnitude of their difference, what is the angle between the vectors?
Answer: 90 degrees
Explanation: If |A+B| = |A-B|, then the vectors must be perpendicular (90 degrees). Option B results in |A+B| being maximum.