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Consider a hypothetic spherical body. The body is cut into two parts about the diameter. One of hemispherical portion has mass distribution m while the other portion has identical charge distribution q. The body is rotated about the axis with constant speed ω. Then, the ratio of magnetic moment to angular momentum is
14
Oct
Consider a hypothetic spherical body. The body is cut into two parts about the diameter. One of hemispherical portion has mass distribution m while the other portion has identical charge distribution q. The body is rotated about the axis with constant speed ω. Then, the ratio of magnetic moment to angular momentum is A small [...]
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Tags: A small block of mass m , An electron is accelerated from rest through a potential difference V. This electron experiences a force F in a uniform magnetic field. On increasing the potential difference to V' , having charge q , the force experienced by the electron in the same magnetic field becomes 2F. Then , the ratio (V'/V) is equal to ,
In figure, there is a uniform conducting structure in which each small square has side a . The structure is kept in a uniform in a uniform magnetic force on the structure will be
14
Oct
In figure, there is a uniform conducting structure in which each small square has side a . The structure is kept in a uniform in a uniform magnetic force on the structure will be In figure there is a uniform conducting structure in which each small square has side a . The structure is kept [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: In figure , there is a uniform conducting structure in which each small square has side a . The structure is kept in a uniform in a uniform magnetic force on the structure will be ,
A small block of mass m, having charge q, is placed on a frictionless inclined plane making an angle θ with the horizontal. There exists a uniform magnetic field B parallel to the inclined plane but perpendicular to the length of spring. If m is slightly pulled on the incline in downward direction, the time period of oscillation will be (assume that the block does not leave contact with the plane)
14
Oct
A small block of mass m, having charge q, is placed on a frictionless inclined plane making an angle θ with the horizontal. There exists a uniform magnetic field B parallel to the inclined plane but perpendicular to the length of spring. If m is slightly pulled on the incline in downward direction, the time [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A small block of mass m , An electron is accelerated from rest through a potential difference V. This electron experiences a force F in a uniform magnetic field. On increasing the potential difference to V' , having charge q , the force experienced by the electron in the same magnetic field becomes 2F. Then , the ratio (V'/V) is equal to ,
A conducting ring of mass 2 kg and radius 0.5 m is placed on a smooth plane. The ring carries a current of i=4A. A horizontal magnetic field B=10T is switched on at time t = 0 as shown in fig The initial angular acceleration of the ring will be
14
Oct
A conducting ring of mass 2 kg and radius 0.5 m is placed on a smooth plane. The ring carries a current of i=4A. A horizontal magnetic field B=10T is switched on at time t = 0 as shown in fig The initial angular acceleration of the ring will be An electron is accelerated from [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: An electron is accelerated from rest through a potential difference V. This electron experiences a force F in a uniform magnetic field. On increasing the potential difference to V' , the force experienced by the electron in the same magnetic field becomes 2F. Then , the ratio (V'/V) is equal to ,
A straight peice of conducting wire with mass M and length L is placed on a frictionless incline tilited at an angle θ from the horizontal (as shown in fig) There is a uniform. Vertical magnetic field at all points (produced by an arrangement of magnets not shown in fig. To keep the wire from sliding down the incline, a voltage source is
14
Oct
A straight peice of conducting wire with mass M and length L is placed on a frictionless incline tilited at an angle θ from the horizontal (as shown in fig) There is a uniform. Vertical magnetic field at all points (produced by an arrangement of magnets not shown in fig. To keep the wire from [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: An electron is accelerated from rest through a potential difference V. This electron experiences a force F in a uniform magnetic field. On increasing the potential difference to V' , the force experienced by the electron in the same magnetic field becomes 2F. Then , the ratio (V'/V) is equal to ,
A particle of specific charge alpha is projected from origin with velocity v = v0i – v0k in a uniform magnetic field B = -B0K. Find tim,e dependence of velocity of the particle.
14
Oct
A particle of specific charge alpha is projected from origin with velocity v = v0i – v0k in a uniform magnetic field B = -B0K. Find tim,e dependence of velocity of the particle. A particle of specific charge alpha is projected from origin with velocity v = v0i - v0k in a uniform magnetic field [...]
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Tags: A particle of specific charge alpha is projected from origin with velocity v = v0i - v0k in a uniform magnetic field B = -B0K. Find tim , e dependence of velocity of the particle. ,
Two straight segments of wire ab and bc each carrying current I, are placed as shown in fig. The cube edge is 50 cm and magnetic field is uniform along y-axis having magnitude 0.4 T. If I = 3 A, the force experienced by wire abc in the presence of magnetic field is
14
Oct
Two straight segments of wire ab and bc each carrying current I, are placed as shown in fig. The cube edge is 50 cm and magnetic field is uniform along y-axis having magnitude 0.4 T. If I = 3 A, the force experienced by wire abc in the presence of magnetic field is are placed [...]
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Tags: are placed as shown in fig. The cube edge is 50 cm and magnetic field is uniform along y-axis having magnitude 0.4 T. If I = 3 A , the force experienced by wire abc in the presence of magnetic field is , Two straight segments of wire ab and bc each carrying current I ,
3. Verify whether the following are zeroes of the polynomial, indicated against them. (iv) p(x) = (x+1)(x–2), x =−1, 2
13
Oct
3. Verify whether the following are zeroes of the polynomial, indicated against them. (iv) p(x) = (x+1)(x–2), x =−1, 2 2 3. Verify whether the following are zeroes of the polynomial indicated against them. (iv) p(x) = (x+1)(x–2) x =−1 October 13, 2020 Category: Chapter 2 - Polynomials , Maths , NCERT Class 9 ,
Posted in: Chapter 2 - Polynomials , Maths , NCERT Class 9 ,
Tags: 2 , 3. Verify whether the following are zeroes of the polynomial , indicated against them. (iv) p(x) = (x+1)(x–2) , x =−1 ,
3. Verify whether the following are zeroes of the polynomial, indicated against them. (iii) p(x)=x^2−1, x=1, −1
13
Oct
3. Verify whether the following are zeroes of the polynomial, indicated against them. (iii) p(x)=x^2−1, x=1, −1 −1 3. Verify whether the following are zeroes of the polynomial indicated against them. (iii) p(x)=x^2−1 x=1 October 13, 2020 Category: Chapter 2 - Polynomials , Maths , NCERT Class 9 ,
Posted in: Chapter 2 - Polynomials , Maths , NCERT Class 9 ,
Tags: −1 , 3. Verify whether the following are zeroes of the polynomial , indicated against them. (iii) p(x)=x^2−1 , x=1 ,
3. Verify whether the following are zeroes of the polynomial, indicated against them. (ii) p(x)=5x–π, x = 4/5
13
Oct
3. Verify whether the following are zeroes of the polynomial, indicated against them. (ii) p(x)=5x–π, x = 4/5 3. Verify whether the following are zeroes of the polynomial indicated against them. (ii) p(x)=5x–π x = 4/5 October 13, 2020 Category: Chapter 2 - Polynomials , Maths , NCERT Class 9 ,
Posted in: Chapter 2 - Polynomials , Maths , NCERT Class 9 ,
Tags: 3. Verify whether the following are zeroes of the polynomial , indicated against them. (ii) p(x)=5x–π , x = 4/5 ,