In the previous problem
In the previous problem, what will be force with which system moves ? ( use root 2 = 1.4 )
14
Oct
In the previous problem, what will be force with which system moves ? ( use root 2 = 1.4 ) In the previous problem what will be force with which system moves ? ( use root 2 = 1.4 ) October 14, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
IN the previous problem, if time period , T = 2 Pie m/BQ where Q is the charge o f the particle and m is its mass, the ratio of time spent by the particle in the field when theta is positive to when theta is negative is given by
14
Oct
IN the previous problem, if time period , T = 2 Pie m/BQ where Q is the charge o f the particle and m is its mass, the ratio of time spent by the particle in the field when theta is positive to when theta is negative is given by if time period In the [...]
In the previous problem, if O is the point on AD and OO1 is the perpendicular from the centre of the circle , O-1. then OA /OD will be
14
Oct
In the previous problem, if O is the point on AD and OO1 is the perpendicular from the centre of the circle , O-1. then OA /OD will be if O is the point on AD and OO1 is the perpendicular from the centre of the circle In the previous problem O-1. then OA /OD [...]
In the previous problem, what will be refractive index of the liquid so that point E is visible (PE = R/3) through the telescope in air when vessel is filled with liquid completely,
06
Oct
In the previous problem, what will be refractive index of the liquid so that point E is visible (PE = R/3) through the telescope in air when vessel is filled with liquid completely, In the previous problem what will be refractive index of the liquid so that point E is visible (PE = R/3) through [...]
In the previous problem, if theta is the angle substended by the sun at the planet, then temperature at which planet radiates energy is proportional to
04
Oct
In the previous problem, if theta is the angle substended by the sun at the planet, then temperature at which planet radiates energy is proportional to if theta is the angle substended by the sun at the planet In the previous problem then temperature at which planet radiates energy is proportional to October 4, 2020 [...]
In the previous problem, the smallest kinetic energy at the bottom of the incline will be achieved by
29
Sep
In the previous problem, the smallest kinetic energy at the bottom of the incline will be achieved by In the previous problem the smallest kinetic energy at the bottom of the incline will be achieved by September 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the previous problem, when both the keys are closed, charge that will flow through key K1 will be
18
Sep
In the previous problem, when both the keys are closed, charge that will flow through key K1 will be charge that will flow through key K1 will be In the previous problem when both the keys are closed September 18, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
A satellite is moving with a constant speed v in circular orbit around the earth. An object of mass ′m′ is ejected from the satellite such that it just escapes from the gravitational pull of the earth. At the time of ejection, the kinetic energy of the object is
14
Sep
A satellite is moving with a constant speed v in circular orbit around the earth. An object of mass ′m′ is ejected from the satellite such that it just escapes from the gravitational pull of the earth. At the time of ejection, the kinetic energy of the object is In the previous problem the minimum [...]
In the previous problem, the minimum speed with which the body must be thrown from the surface of the earth so as to reach a height of R/4 is
14
Sep
In the previous problem, the minimum speed with which the body must be thrown from the surface of the earth so as to reach a height of R/4 is In the previous problem the minimum speed with which the body must be thrown from the surface of the earth so as to reach a height [...]
In the previous problem, if the particle occupies a position x=7m at t=1s, then obtain an expression for the instantaneous displacement of the particle.
26
Aug
In the previous problem, if the particle occupies a position x=7m at t=1s, then obtain an expression for the instantaneous displacement of the particle. if the particle occupies a position x=7m at t=1s In the previous problem then obtain an expression for the instantaneous displacement of the particle. August 26, 2020 Category: Uncategorised (JEE Advanced [...]