Part 1

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A simple pendulum of length l and mass m performs oscillatory motion in a plane with respect to vertical. its angular limit is -f and +f for a displacement (θ) (θ < f), tension in sting and velocity of bob are respectively T and v. Then for above situation which relation is correct.
29
Oct
A simple pendulum of length l and mass m performs oscillatory motion in a plane with respect to vertical. its angular limit is -f and +f for a displacement (θ) (θ < f), tension in sting and velocity of bob are respectively T and v. Then for above situation which relation is correct. A simple [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A simple pendulum of length l and mass m performs oscillatory motion in a plane with respect to vertical. its angular limit is -f and +f for a displacement (θ) (θ < f) , tension in sting and velocity of bob are respectively T and v. Then for above situation which relation is correct. ,
A pilot of mass 81 kg loops the loop with steady speed of 300km/h. If the radius is 0.5 km then the force with which the pilot is pressed into the seat at the highest point of the loop ,is (g=10m/s^2)
29
Oct
A pilot of mass 81 kg loops the loop with steady speed of 300km/h. If the radius is 0.5 km then the force with which the pilot is pressed into the seat at the highest point of the loop ,is (g=10m/s^2) A pilot of mass 81 kg loops the loop with steady speed of 300km/h. [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A pilot of mass 81 kg loops the loop with steady speed of 300km/h. If the radius is 0.5 km then the force with which the pilot is pressed into the seat at the highest point of the loop , is (g=10m/s^2) ,
The breaking tension of a string is 10 N. A particle of mass 0.1 kg tied to it is rotated along a horizontal circle of radius 0.5 meter. The maximum speed with which the particle can be rotated without breaking the string is
29
Oct
The breaking tension of a string is 10 N. A particle of mass 0.1 kg tied to it is rotated along a horizontal circle of radius 0.5 meter. The maximum speed with which the particle can be rotated without breaking the string is In vertical circular motion the ratio of kinetic energy of a particle [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: In vertical circular motion , the ratio of kinetic energy of a particle at highest point to that at lowest point is ,
A particle is projected so as to just move along a vertical circle of radius r. The ratio of the tension in the string when the particle is at the lowest and highest point on the circle is ?
29
Oct
A particle is projected so as to just move along a vertical circle of radius r. The ratio of the tension in the string when the particle is at the lowest and highest point on the circle is ? A particle is projected so as to just move along a vertical circle of radius r. [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A particle is projected so as to just move along a vertical circle of radius r. The ratio of the tension in the string when the particle is at the lowest and highest point on the circle is ? ,
A vehicle of mass m starts moving along a horizontal circle without slipping so that acceleration is a1 = bt^2, where b is constant. At t = t0 vehicle skids. The friction on the car as function of time t (< t0) is nm root^2 t^4 + bR. Find the value of n.
29
Oct
A vehicle of mass m starts moving along a horizontal circle without slipping so that acceleration is a1 = bt^2, where b is constant. At t = t0 vehicle skids. The friction on the car as function of time t (< t0) is nm root^2 t^4 + bR. Find the value of n. A vehicle [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A vehicle of mass m starts moving along a horizontal circle without slipping so that acceleration is a1 = bt^2 , where b is constant. At t = t0 vehicle skids. The friction on the car as function of time t (< t0) is nm root^2 t^4 + bR. Find the value of n. ,
A toy car starts from rest along the circular track of radius R on a horizontal board with a tangential acceleration a0. At the same instant, board starts from rest and accelerate upward with an acceleration a1. The coefficient of friction between board and car is u. The speed of the car relative to board at which it will skin in R^2(u^n (g + a1)^2 – a0^2) ^1/4. Find the value of n.
29
Oct
A toy car starts from rest along the circular track of radius R on a horizontal board with a tangential acceleration a0. At the same instant, board starts from rest and accelerate upward with an acceleration a1. The coefficient of friction between board and car is u. The speed of the car relative to board [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A toy car starts from rest along the circular track of radius R on a horizontal board with a tangential acceleration a0. At the same instant , In vertical circular motion , the ratio of kinetic energy of a particle at highest point to that at lowest point is ,
A car goes on a horizontal circular road of radius R. The speed increases at a constant rate a= dt/ dv = k. The friction coefficient between the tyre is μ. Find the speed at which the car will skid?
29
Oct
A car goes on a horizontal circular road of radius R. The speed increases at a constant rate a= dt/ dv = k. The friction coefficient between the tyre is μ. Find the speed at which the car will skid? A car goes on a horizontal circular road of radius R. The speed increases at [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A car goes on a horizontal circular road of radius R. The speed increases at a constant rate a= dt/ dv = k. The friction coefficient between the tyre is μ. Find the speed at which the car will skid? ,
A particle describes a horizontal circle in a conical funnel whose inner surface is smooth with speed of 0.5 m/s. What is the height of the plane of the circle from the vertex of the funnel ?
29
Oct
A particle describes a horizontal circle in a conical funnel whose inner surface is smooth with speed of 0.5 m/s. What is the height of the plane of the circle from the vertex of the funnel ? A particle describes a horizontal circle in a conical funnel whose inner surface is smooth with speed of [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A particle describes a horizontal circle in a conical funnel whose inner surface is smooth with speed of 0.5 m/s. What is the height of the plane of the circle from the vertex of the funnel ? ,
A car is moving with a speed of 30m/s on a circular path on a radius 500 m. It is increases its speed at the rate of 2m/sec^2 the resultant acceleration will be
29
Oct
A car is moving with a speed of 30m/s on a circular path on a radius 500 m. It is increases its speed at the rate of 2m/sec^2 the resultant acceleration will be A car is moving with a speed of 30m/s on a circular path on a radius 500 m. It is increases its [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A car is moving with a speed of 30m/s on a circular path on a radius 500 m. It is increases its speed at the rate of 2m/sec^2 the resultant acceleration will be ,
A car is travelling with linear velocity v on a circular road of radius r. If it is increasing its speed at the rate of a m/s^2 , then the resultant acceleration will be
29
Oct
A car is travelling with linear velocity v on a circular road of radius r. If it is increasing its speed at the rate of a m/s^2 , then the resultant acceleration will be A car is travelling with linear velocity v on a circular road of radius r. If it is increasing its speed [...]
Posted in: Chapter 7 - Circular Motion , MTG NEET Physics , Part 1 ,
Tags: A car is travelling with linear velocity v on a circular road of radius r. If it is increasing its speed at the rate of a m/s^2 , then the resultant acceleration will be ,