Download App

STD 11 - 2. motion in straight line — JEE STD 11 Science — Question

Gujarat BoardEnglish MediumSTD 11 ScienceJEESTD 11 - 2. motion in straight line4 Marks
MCQ
A body is moving with variable acceleration $(a)$ along a straight line. The average acceleration of body in time interval $t_1$ to $t_2$ is
  • A
    $\frac{a\left[t_2+t_1\right]}{2}$
  • B
    $\frac{a\left[t_2-t_1\right]}{2}$
  • C
    $\frac{\int \limits_1^{t_2} a d t}{t_2+t_1}$
  • $\frac{\int \limits_{t_1}^{t_2} a d t}{t_2-t_1}$

Answer

Correct option: D.
$\frac{\int \limits_{t_1}^{t_2} a d t}{t_2-t_1}$
d
(d)

Average acceleration $=\frac{\text { Change in velocity }}{\text { Time }} \Rightarrow a_{ av }=\frac{\int \limits_{t_1}^{t_2} a d t}{t_2-t_1}$

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "SECTION - A [PHYSICS MCQ]" from STD 11 - 2. motion in straight lineSTD 11 - 2. motion in straight line — all question typesJEE STD 11 Science question papersGujarat Board STD 11 Science question papersGujarat Board question paper generator

Similar questions

Two resistances equal at $0\,^oC$ with temperature coefficient of resistance $\alpha _1$ and $\alpha _2$ joined in series act as a single resistance in a circuit. The temperature coefficient of their single resistance will be
Of the following having the same kinetic energy, the one which has the largest wavelength is
The equation of a transverse wave travelling along a string is $y ( x , t )=4.0 \sin \left[20 \times 10^{-3} x +600 t \right] mm$, where x is in the mm and t is in second. The velocity of the wave is :
A rod of mass $1\ kg$ , length $1\ m$ is suspended horizontally with the help of two ideal strings as shown in figure. First a mass is suspended to the left most end keeping rod horizontal, than a second mass is suspended to the right most end again keeping horizontal orientation. The maximum total mass that can be suspended in that way keeping horizontal orientation of rod ....... $kg.$
Match List$-I$ with List$-II$

List$-I$ List$-II$
$A$ Gauss's Law in Electrostat ics $I$ $\oint \vec{E} \cdot d \vec{l}=-\frac{d \phi_B}{d t}$
$B$ Faraday's Law $II$ $\oint \overrightarrow{ B } \cdot d \overrightarrow{ A }=0$
$C$ Gauss's Law in Magnetism $III$ $\oint \vec{B} \cdot d \vec{l}=\mu_0 i_C+\mu_0 \in_0 \frac{d \phi_E}{d t}$
$D$ Ampere-Maxwell Law $IV$ $\oint \overrightarrow{ E } \cdot d \overrightarrow{ s }=\frac{ q }{\epsilon_0}$

Choose the correct answer from the options given below:

A homogeneous cubical brick lies motionless on a rough inclined surface. The half of the brick which applies greater pressure on the plane is :
The time period of a satellite of earth is $5\, hours$. If the separation between the centre of earth and the satellite is increased to $4\, times$ the previous value, the new time period will become ....... $h$
A radioactive nuclei with decay constant $0.5/s$ is being produced at a constant rate of $100\, nuclei/s$. If at $t\, = 0$ there were no nuclei, the time when there are $50\, nuclei$ is
The potential energy of a particle of mass $100 \,g$ moving along $x$-axis is given by $U=5 x(x-4)$, where $x$ is in metre. The period of oscillation is .................
The specific resistance of a wire is $\rho $, its volume is $3\,{m^3}$ and its resistance is $3\, ohms$, then its length will be