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Before the neutrino hypothesis, the beta decay process was thought to be the transition: n give p + e^- If the neutron was at rest, the proton and electron would emerge with fixed energies. Given p is the magnitude of the momentum
20
Oct
Before the neutrino hypothesis, the beta decay process was thought to be the transition: n give p + e^- If the neutron was at rest, the proton and electron would emerge with fixed energies. Given p is the magnitude of the momentum Before the neutrino hypothesis the beta decay process was thought to be the [...]
A copper rod is bent inot a semi-circle of radius a and at ends straight parts are bent along diameter of the semi-circle and are passed through fixed, smooth and conducting ring O and O’ as shown in figure. A capacitor having capacitance C is connected to the rings. The system is located in a uniform magnetic field of induction B such that axis of rotation OO’ is perpendicular to the field direction. At initial moment of time (t=0), plane of semi-circle was normal to the field direction and the semi-circle is set in rotation with constant angular velocity ω. Neglect the resistance and inductance of the circuit. The current flowing through the circuit as function of time is
20
Oct
A copper rod is bent inot a semi-circle of radius a and at ends straight parts are bent along diameter of the semi-circle and are passed through fixed, smooth and conducting ring O and O’ as shown in figure. A capacitor having capacitance C is connected to the rings. The system is located in a [...]
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A copper rod is bent inot a semi-circle of radius a and at ends straight parts are bent along diameter of the semi-circle and are passed through fixed ,
the current in wire AB is ( ab is one of the diameters ) ,
The radius of the circular conducting loop shown in figure is R. Magnetic field is decreasing at a constant rate alpha. Resistance per unit length of the loop is rho. Then ,
An elasticized conducting band is around a spherical ballon . Its plane through the center of the balloon. A uniform magnetic field of magnitude 0.04 T is directed perpendicular to the plane of the band. Air is let out of the balloon at 100 cm^3/s at an instant when the radius of the balloon is 10 cm. The induced emf in the band is
20
Oct
An elasticized conducting band is around a spherical ballon . Its plane through the center of the balloon. A uniform magnetic field of magnitude 0.04 T is directed perpendicular to the plane of the band. Air is let out of the balloon at 100 cm^3/s at an instant when the radius of the balloon is [...]
In Column 1 some of the nuclear reactions are given. Match this with the energy involved in these reactions in Column 2.
20
Oct
In Column 1 some of the nuclear reactions are given. Match this with the energy involved in these reactions in Column 2. In Column 1 some of the nuclear reactions are given. Match this with the energy involved in these reactions in Column 2. October 20, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma [...]
A flexible wire loop in the shape of a circle has a radius that grows linearly with time. There is a magnetic field perpendicular to the plane of the loop that has a magnitude inversely proportional to the distance from the centre of the loop, B(r)∝1/r How does the emf E vary with time?
20
Oct
A flexible wire loop in the shape of a circle has a radius that grows linearly with time. There is a magnetic field perpendicular to the plane of the loop that has a magnitude inversely proportional to the distance from the centre of the loop, B(r)∝1/r How does the emf E vary with time? the [...]
In Column 1 consider each process just before and just after it occurs. Initial system is isolated from all other bodies. Consider all product particles (even those having rest mass zero) in the system.
20
Oct
In Column 1 consider each process just before and just after it occurs. Initial system is isolated from all other bodies. Consider all product particles (even those having rest mass zero) in the system. Assume that the nuclear binding energy per nucleon (B/A) versus mass number (A) is as shown in figure. Use this plot [...]
Four physical quantities are given in Column 1 and their order of values in Column 2. Match appropriately.
20
Oct
Four physical quantities are given in Column 1 and their order of values in Column 2. Match appropriately. Four physical quantities are given in Column 1 and their order of values in Column 2. Match appropriately. October 20, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
The half life of a radioactive sample can be experimentally round by the following method. A pure radioactive sample A decays into B by a decay. A gives B + alpha NA and NB are measured at different
20
Oct
The half life of a radioactive sample can be experimentally round by the following method. A pure radioactive sample A decays into B by a decay. A gives B + alpha NA and NB are measured at different The half life of a radioactive sample can be experimentally round by the following method. A pure [...]
A nucleus X of mass M, initially at rest, undergoes alpha decay according the equation AXZ gives A-4YZ-2 + 4He2 The alpha particle emitted in the above process is found to move in a circular track of radius r in a uniform magnetic
20
Oct
A nucleus X of mass M, initially at rest, undergoes alpha decay according the equation AXZ gives A-4YZ-2 + 4He2 The alpha particle emitted in the above process is found to move in a circular track of radius r in a uniform magnetic A nucleus X of mass M initially at rest undergoes alpha decay [...]
Two radioactive materials A and B decay constant 3 lemda and 2 lemda respectively. At t = 0, the numbers of nuclei of A and B are 4 N0 and 2N0 respectively, then
20
Oct
Two radioactive materials A and B decay constant 3 lemda and 2 lemda respectively. At t = 0, the numbers of nuclei of A and B are 4 N0 and 2N0 respectively, then the numbers of nuclei of A and B are 4 N0 and 2N0 respectively then Two radioactive materials A and B decay [...]