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Velocity versus displacement graph of a particle moving in a straight line is shown in Fig. A.5. The corresponding acceleration versus velocity graph will be
24
Sep
Velocity versus displacement graph of a particle moving in a straight line is shown in Fig. A.5. The corresponding acceleration versus velocity graph will be Velocity versus displacement graph of a particle moving in a straight line is shown in Fig. A.5. The corresponding acceleration versus velocity graph will be September 24, 2020 Category: Uncategorised [...]
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Tags: Velocity versus displacement graph of a particle moving in a straight line is shown in Fig. A.5. The corresponding acceleration versus velocity graph will be ,
Velocity versus displacement graph of a particle moving in a straight line as shown in Fig. A.4. The acceleration of the particle
24
Sep
Velocity versus displacement graph of a particle moving in a straight line as shown in Fig. A.4. The acceleration of the particle Velocity versus displacement graph of a particle moving in a straight line as shown in Fig. A.4. The acceleration of the particle September 24, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma [...]
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Tags: Velocity versus displacement graph of a particle moving in a straight line as shown in Fig. A.4. The acceleration of the particle ,
Figure A.3 shows the velocity – displacement curve for an object moving along a straight line. At which of the points marked is the object speeding up?
24
Sep
Figure A.3 shows the velocity – displacement curve for an object moving along a straight line. At which of the points marked is the object speeding up? Figure A.3 shows the velocity - displacement curve for an object moving along a straight line. At which of the points marked is the object speeding up? September [...]
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Tags: Figure A.3 shows the velocity - displacement curve for an object moving along a straight line. At which of the points marked is the object speeding up? ,
A particle is moving along a straight line whose velocity- displacement graph is shown in Fig. A.2. What is the acceleration when displacement is 3 m?
24
Sep
A particle is moving along a straight line whose velocity- displacement graph is shown in Fig. A.2. What is the acceleration when displacement is 3 m? A particle is moving along a straight line whose velocity- displacement graph is shown in Fig. A.2. What is the acceleration when displacement is 3 m? September 24, 2020 [...]
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Tags: A particle is moving along a straight line whose velocity- displacement graph is shown in Fig. A.2. What is the acceleration when displacement is 3 m? ,
A stream of glass beads, each with a mass of 15 gram, comes out of a horizontal tube at a rate of 100 per second. The beads fals a distance of 5m to a balance pan and bounce back to their original height. How much mass (in kg) must be placed in the other pan of the balance to keep in pointer at zero?
24
Sep
A stream of glass beads, each with a mass of 15 gram, comes out of a horizontal tube at a rate of 100 per second. The beads fals a distance of 5m to a balance pan and bounce back to their original height. How much mass (in kg) must be placed in the other pan [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , A stream of glass beads , each with a mass of 15 gram , then during the impact , Three balls A ,
The acceleration of a particle starting from rest and travelling along a straight line is shown in Fig. A.1. The maximum speed of the particle is
24
Sep
The acceleration of a particle starting from rest and travelling along a straight line is shown in Fig. A.1. The maximum speed of the particle is The acceleration of a particle starting from rest and travelling along a straight line is shown in Fig. A.1. The maximum speed of the particle is September 24, 2020 [...]
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Tags: The acceleration of a particle starting from rest and travelling along a straight line is shown in Fig. A.1. The maximum speed of the particle is ,
A small ball thrown at an initial velocity u directed at an angle theta equals to 37 degree above the horizontal velocity U by v towards ball after collision with the wall the ball return to the point from where it was thrown neglect friction between ball and wall that time to from beginning of motion of the world till the moment of its impact with the wall is 1
24
Sep
A small ball thrown at an initial velocity u directed at an angle theta equals to 37 degree above the horizontal velocity U by v towards ball after collision with the wall the ball return to the point from where it was thrown neglect friction between ball and wall that time to from beginning of [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact , Three balls A ,
A point moves such that its displacement as a function of time is given by x ^3 = t^3 + 1. Its acceleration as a function of time t will be
24
Sep
A point moves such that its displacement as a function of time is given by x ^3 = t^3 + 1. Its acceleration as a function of time t will be A point moves such that its displacement as a function of time is given by x ^3 = t^3 + 1. Its acceleration as [...]
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Tags: A point moves such that its displacement as a function of time is given by x ^3 = t^3 + 1. Its acceleration as a function of time t will be ,
A particle is moving along the x-axis whose acceleration is given by a = 3x -4, where x is the location of the particle. At t = 0, the particle is at rest at x = 4/3 m. The distance travelled by the
24
Sep
A particle is moving along the x-axis whose acceleration is given by a = 3x -4, where x is the location of the particle. At t = 0, the particle is at rest at x = 4/3 m. The distance travelled by the A particle is moving along the x-axis whose acceleration is given by [...]
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Tags: A particle is moving along the x-axis whose acceleration is given by a = 3x -4 , the particle is at rest at x = 4/3 m. The distance travelled by the , where x is the location of the particle. At t = 0 ,
A particle is moving in a circle of radius R with constant speed. The time period of the particle is T = 1. In a time t = T/6, if the difference between average speed and average velocity of he particle
24
Sep
A particle is moving in a circle of radius R with constant speed. The time period of the particle is T = 1. In a time t = T/6, if the difference between average speed and average velocity of he particle A particle is moving in a circle of radius R with constant speed. The [...]
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Tags: A particle is moving in a circle of radius R with constant speed. The time period of the particle is T = 1. In a time t = T/6 , if the difference between average speed and average velocity of he particle ,