Chapter 3 – Motion in One Dimension

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A point moves in a straight line so that its displacement x m at time t sec is given by x^2=1+t^2 Its acceleration in m/sec^2 at a time t sec is
09
Sep
A point moves in a straight line so that its displacement x m at time t sec is given by x^2=1+t^2 Its acceleration in m/sec^2 at a time t sec is A point moves in a straight line so that its displacement x m at time t sec is given by x^2=1+t^2 Its acceleration in [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: A point moves in a straight line so that its displacement x m at time t sec is given by x^2=1+t^2 Its acceleration in m/sec^2 at a time t sec is ,
The velocity of a particle is given by v = root 180 – 16 x m/s. its acceleration is
09
Sep
The velocity of a particle is given by v = root 180 – 16 x m/s. its acceleration is The velocity of a particle is given by v = root 180 - 16 x m/s. its acceleration is September 9, 2020 Category: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: The velocity of a particle is given by v = root 180 - 16 x m/s. its acceleration is ,
The motion of a particle along a straight line is described by equation x=8+12t−t^3 where, x is in metre and t in sec. The retardation of the particle when its velocity becomes zero is :
09
Sep
The motion of a particle along a straight line is described by equation x=8+12t−t^3 where, x is in metre and t in sec. The retardation of the particle when its velocity becomes zero is : The motion of a particle along a straight line is described by equation x=8+12t−t^3 where x is in metre and [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: The motion of a particle along a straight line is described by equation x=8+12t−t^3 where , x is in metre and t in sec. The retardation of the particle when its velocity becomes zero is : ,
A particle moves along x-axis and its displacement at any time is given by x(t)=2t^3−3t^2+4t in SI units. The velocity of the particle when its acceleration is zero, is:
09
Sep
A particle moves along x-axis and its displacement at any time is given by x(t)=2t^3−3t^2+4t in SI units. The velocity of the particle when its acceleration is zero, is: A particle moves along x-axis and its displacement at any time is given by x(t)=2t^3−3t^2+4t in SI units. The velocity of the particle when its acceleration [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: A particle moves along x-axis and its displacement at any time is given by x(t)=2t^3−3t^2+4t in SI units. The velocity of the particle when its acceleration is zero , is ,
The velocity – time graph for two bodies A ad B are shown. Then the acceleration of A and B are in the ratio
09
Sep
The velocity – time graph for two bodies A ad B are shown. Then the acceleration of A and B are in the ratio The velocity - time graph for two bodies A ad B are shown. Then the acceleration of A and B are in the ratio September 9, 2020 Category: Chapter 3 - [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: The velocity - time graph for two bodies A ad B are shown. Then the acceleration of A and B are in the ratio ,
At a certain time a particle had a speed of 18 m/s in the positive x direction, and 2.4 s later its speed was 30 m/s in the opposite direction. What is the magnitude of the average acceleration of the particle during this 2.4 s interval?
09
Sep
At a certain time a particle had a speed of 18 m/s in the positive x direction, and 2.4 s later its speed was 30 m/s in the opposite direction. What is the magnitude of the average acceleration of the particle during this 2.4 s interval? and 2.4 s later its speed was 30 m/s [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: and 2.4 s later its speed was 30 m/s in the opposite direction. What is the magnitude of the average acceleration of the particle during this 2.4 s interval? , At a certain time a particle had a speed of 18 m/s in the positive x direction ,
The distance S travelled by an accelerated particle of mass M is given by the following relation ( in MKS units) S = 6t + 3t^2. The velocity of the particle after 2 seconds is
09
Sep
The distance S travelled by an accelerated particle of mass M is given by the following relation ( in MKS units) S = 6t + 3t^2. The velocity of the particle after 2 seconds is The distance S travelled by an accelerated particle of mass M is given by the following relation ( in MKS [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: The distance S travelled by an accelerated particle of mass M is given by the following relation ( in MKS units) S = 6t + 3t^2. The velocity of the particle after 2 seconds is ,
Figure shows the position time graph of an object. find the other ratio of the velocities at 5th and 27th seconds.
09
Sep
Figure shows the position time graph of an object. find the other ratio of the velocities at 5th and 27th seconds. Figure shows the position time graph of an object. find the other ratio of the velocities at 5th and 27th seconds. September 9, 2020 Category: Chapter 3 - Motion in One Dimension , MTG [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: Figure shows the position time graph of an object. find the other ratio of the velocities at 5th and 27th seconds. ,
The displacement x of a body varies with time t as x=1/3​t^2+16t+3. In what time that body comes to rest? (x is measured in meter and t in second)
09
Sep
The displacement x of a body varies with time t as x=1/3​t^2+16t+3. In what time that body comes to rest? (x is measured in meter and t in second) The displacement x of a body varies with time t as x=1/3​t^2+16t+3. In what time that body comes to rest? (x is measured in meter and [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: The displacement x of a body varies with time t as x=1/3​t^2+16t+3. In what time that body comes to rest? (x is measured in meter and t in second) ,
The motion of the particle is represented by the equation S = 8t^3 – 2t^2 + 6t + 7. Find the velocity of the particle at the end of 2 seconds in m s ^-1
09
Sep
The motion of the particle is represented by the equation S = 8t^3 – 2t^2 + 6t + 7. Find the velocity of the particle at the end of 2 seconds in m s ^-1 The motion of the particle is represented by the equation S = 8t^3 - 2t^2 + 6t + 7. Find [...]
Posted in: Chapter 3 - Motion in One Dimension , MTG NEET Physics , Part 1 ,
Tags: The motion of the particle is represented by the equation S = 8t^3 - 2t^2 + 6t + 7. Find the velocity of the particle at the end of 2 seconds in m s ^-1 ,