Current set CDS-II · 2018 Q9

Pick exam & year, then Go.

Exam

Year

Not attempted Correct Incorrect ★ Bookmarked

Loading…

Q9 (CDS-II/2018) Science & Technology › Basic Science (Physics, Chemistry, Biology) › Basic mechanics concepts Answer Verified

The position vector of a particle is r =2t2x + 3ty + 4z Then the instantaneous velocity v and acceleration a respectively lie

A

on xy-plane and along z-direction

B

on i/z-plane and along x-direction

C

on yz-plane and along indirection

D

on xy-plane and along x-direction

Result

Your answer: — · Correct: D

Explanation

The position vector is given as r = 2t²i + 3tj + 4k. To find the instantaneous velocity (v), we take the first derivative of r with respect to time: v = dr/dt = 4ti + 3j + 0k. Since the z-component is zero, the velocity vector lies entirely in the xy-plane. To find the acceleration (a), we take the derivative of the velocity: a = dv/dt = 4i + 0j + 0k [1]. The acceleration vector has only an x-component, meaning it is directed along the x-axis. Therefore, the velocity lies on the xy-plane and the acceleration is along the x-direction. This follows the standard kinematic procedure where velocity and acceleration are successive derivatives of the position vector.

Sources

[1] https://www.maths.dur.ac.uk/users/W.J.Zakrzewski/dynamics/problems_solns.pdf

How others answered

Each bar shows the % of students who chose that option. Green bar = correct answer, blue outline = your choice.

Community Performance

Out of everyone who attempted this question.

0%

got it right

Change set

Question map

The position vector of a particle is r =2t2x + 3ty + 4z Then the instantaneous velocity v and acceleration a respectively lie

Explanation

SIMILAR QUESTIONS

4 Cross-Linked PYQs