AIIMS Last 24 Years Solved 1996 – 2019 Physics and Chemistry Video Solutions

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A solid sphere is rolling on a frictionless surface, shown in figure with a translational velocity v m/s. If it is to climb the inclined surface then v should be
17
Oct
A solid sphere is rolling on a frictionless surface, shown in figure with a translational velocity v m/s. If it is to climb the inclined surface then v should be A solid sphere is rolling on a frictionless surface shown in figure with a translational velocity v m/s. If it is to climb the inclined [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: A solid sphere is rolling on a frictionless surface , shown in figure with a translational velocity v m/s. If it is to climb the inclined surface then v should be ,
If the earth is treated as a sphere of radius R and mass M, its angular momentum about the axis of its rotation with period T is.
17
Oct
If the earth is treated as a sphere of radius R and mass M, its angular momentum about the axis of its rotation with period T is. If the earth is treated as a sphere of radius R and mass M its angular momentum about the axis of its rotation with period T is. October [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: If the earth is treated as a sphere of radius R and mass M , its angular momentum about the axis of its rotation with period T is. ,
Two masses are attached to a rod end to end. If torque is applied, they rotate with angular acceleration α.If their distances are doubled and same torque is applied, then the move with angular acceleration:
17
Oct
Two masses are attached to a rod end to end. If torque is applied, they rotate with angular acceleration α.If their distances are doubled and same torque is applied, then the move with angular acceleration: then the move with angular acceleration: they rotate with angular acceleration α.If their distances are doubled and same torque is [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: then the move with angular acceleration: , they rotate with angular acceleration α.If their distances are doubled and same torque is applied , Two masses are attached to a rod end to end. If torque is applied ,
A rod of length 1.4m and negligible mass has two masses of 0.3kg and 0.7kg tied to its two ends. Find the location of the point on this rod where the rotational energy is minimum where the rod is rotated about that point.
17
Oct
A rod of length 1.4m and negligible mass has two masses of 0.3kg and 0.7kg tied to its two ends. Find the location of the point on this rod where the rotational energy is minimum where the rod is rotated about that point. is The moment of inertia of a disc of mass M and [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: is , The moment of inertia of a disc of mass M and radius R about an axis , which is tangential to the circumference of the disc and parallel to its diameter ,
The moment of inertia of a regular circular disc of mass 0.4 kg and radius 100 cm about an axis. perpendicular to the plane of the disc and passing through its centre is
17
Oct
The moment of inertia of a regular circular disc of mass 0.4 kg and radius 100 cm about an axis. perpendicular to the plane of the disc and passing through its centre is The moment of inertia of a regular circular disc of mass 0.4 kg and radius 100 cm about an axis. perpendicular to [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: The moment of inertia of a regular circular disc of mass 0.4 kg and radius 100 cm about an axis. perpendicular to the plane of the disc and passing through its centre is ,
A body of mass 5kg is moving in a circle of radius 1 m with an angular velocity of 2 rad/sec. Then the centripetal force is
17
Oct
A body of mass 5kg is moving in a circle of radius 1 m with an angular velocity of 2 rad/sec. Then the centripetal force is A body of mass 5kg is moving in a circle of radius 1 m with an angular velocity of 2 rad/sec. Then the centripetal force is October 17, 2020 [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: A body of mass 5kg is moving in a circle of radius 1 m with an angular velocity of 2 rad/sec. Then the centripetal force is ,
If the equation for the displacement of a particle moving in a circular path is given by (θ) = 2t^3+0.5, where θ is in radians and t in seconds, then the angular velocity of particle at = 2s is
17
Oct
If the equation for the displacement of a particle moving in a circular path is given by (θ) = 2t^3+0.5, where θ is in radians and t in seconds, then the angular velocity of particle at = 2s is If the equation for the displacement of a particle moving in a circular path is given [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: If the equation for the displacement of a particle moving in a circular path is given by (θ) = 2t^3+0.5 , then the angular velocity of particle at = 2s is , where θ is in radians and t in seconds ,
The angular velocity of rotation of star (of mass M and radius R) at which the star start to escape from its equator is
17
Oct
The angular velocity of rotation of star (of mass M and radius R) at which the star start to escape from its equator is The angular velocity of rotation of star (of mass M and radius R) at which the star start to escape from its equator is October 17, 2020 Category: AIIMS Last 24 [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 7 - Work, Energy and Power , Physics ,
Tags: The angular velocity of rotation of star (of mass M and radius R) at which the star start to escape from its equator is ,
The moment of inertia of a disc of mass M and radius R about an axis, which is tangential to the circumference of the disc and parallel to its diameter, is
17
Oct
The moment of inertia of a disc of mass M and radius R about an axis, which is tangential to the circumference of the disc and parallel to its diameter, is is The moment of inertia of a disc of mass M and radius R about an axis which is tangential to the circumference of [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 11 - Rotational Mechanics , Physics ,
Tags: is , The moment of inertia of a disc of mass M and radius R about an axis , which is tangential to the circumference of the disc and parallel to its diameter ,
A body of mass m1 collides elastically with another body of mass m2 at rest. If the velocity of m1 after collision is 2/3 times its initial velocity, the ratio of their masses is :
17
Oct
A body of mass m1 collides elastically with another body of mass m2 at rest. If the velocity of m1 after collision is 2/3 times its initial velocity, the ratio of their masses is : A body of mass m1 collides elastically with another body of mass m2 at rest. If the velocity of m1 [...]
Posted in: AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions , Chapter 7 - Work, Energy and Power , Physics ,
Tags: A body of mass m1 collides elastically with another body of mass m2 at rest. If the velocity of m1 after collision is 2/3 times its initial velocity , the ratio of their masses is : ,