Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
Two circular coils X and Y, having equal number of turns and carrying currents in the same sense, subtend same solid angle at point O. If the smaller coil X is midway between O and Y and if we represent the magnetic induction due to bigger coil Y at O as By and the due to smaller coil X at O as Bx,then find the ratio
09
Sep
Two circular coils X and Y, having equal number of turns and carrying currents in the same sense, subtend same solid angle at point O. If the smaller coil X is midway between O and Y and if we represent the magnetic induction due to bigger coil Y at O as By and the due [...]
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having equal number of turns and carrying currents in the same sense ,
subtend same solid angle at point O. If the smaller coil X is midway between O and Y and if we represent the magnetic induction due to bigger coil Y at O as By and the due to smaller coil X at O as Bx ,
then find the ratio ,
Two circular coils X and Y ,
A circular current carrying coil has a radius R. The distance from the centre of the coil on the axis where the magnetic induction will be 1/8th to its value at the centre of the coil is
09
Sep
A circular current carrying coil has a radius R. The distance from the centre of the coil on the axis where the magnetic induction will be 1/8th to its value at the centre of the coil is A circular current carrying coil has a radius R. The distance from the centre of the coil on [...]
A circular coil is in y−z plane with centre at origin. The coil is carrying a constant current. Assuming direction of magnetic field at x=–25cm to be positive direction of magnetic field, which of the following graphs shows variation of magnetic field along x-axis
09
Sep
A circular coil is in y−z plane with centre at origin. The coil is carrying a constant current. Assuming direction of magnetic field at x=–25cm to be positive direction of magnetic field, which of the following graphs shows variation of magnetic field along x-axis A circular coil is in y−z plane with centre at origin. [...]
Find the optical power and focal lengths of a bi-convex lens of radius of curvature R1 = 20 cm, R2 = 30 cm. Assume that the refractive index of the lens is mu = 3/2 and the refractive index of the media at both sides are
09
Sep
Find the optical power and focal lengths of a bi-convex lens of radius of curvature R1 = 20 cm, R2 = 30 cm. Assume that the refractive index of the lens is mu = 3/2 and the refractive index of the media at both sides are Find the optical power and focal lengths of a [...]
A thin equiconvex lens made of glass of refractive index 3/2 and a focal length 0.3 m in air is sealed into an opening at one end of a tank filled with water (mu = 3/2). On the opposite side of the lens, a mirror is placed inside the tank on the
09
Sep
A thin equiconvex lens made of glass of refractive index 3/2 and a focal length 0.3 m in air is sealed into an opening at one end of a tank filled with water (mu = 3/2). On the opposite side of the lens, a mirror is placed inside the tank on the (b) and (c). [...]
A biconvex lens separates two media of refractive indices 1.3 and 1.7. The refractive index of the lens is 1.5 and the radii of curvature of the two sides of the lens are r1 = 10 cm and r2 = 60 cm. The medium of refractive index 1.3 extends to 78
09
Sep
A biconvex lens separates two media of refractive indices 1.3 and 1.7. The refractive index of the lens is 1.5 and the radii of curvature of the two sides of the lens are r1 = 10 cm and r2 = 60 cm. The medium of refractive index 1.3 extends to 78 (b) and (c). Draw [...]
Object O is kept in air in front of a thin plano convex lens of radius of curvature 10 cm. Its refractive index is 3/2 and the medium toward right of plane surface is water of refractive index 4/3.
09
Sep
Object O is kept in air in front of a thin plano convex lens of radius of curvature 10 cm. Its refractive index is 3/2 and the medium toward right of plane surface is water of refractive index 4/3. Object O is kept in air in front of a thin plano convex lens of radius [...]
The diagram shows an equiconvex lens. What should be the condition on the refractive indices so that the lens becomes diverging?
09
Sep
The diagram shows an equiconvex lens. What should be the condition on the refractive indices so that the lens becomes diverging? The diagram shows an equiconvex lens. What should be the condition on the refractive indices so that the lens becomes diverging? September 9, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
The current-carrying wire loop in Fig (a) lies all in one plane and consists of a semicle of radius 10.0 cm, a smaller semicicle is rotated out of that plkane by angle θ until it is perpendicular to the plane [Fig.(b)]. Figure (c) gives the magnitude of the net magnetic field at the center of curvature versus angle θ . what os the radius of the smaller semicircle ?
09
Sep
The current-carrying wire loop in Fig (a) lies all in one plane and consists of a semicle of radius 10.0 cm, a smaller semicicle is rotated out of that plkane by angle θ until it is perpendicular to the plane [Fig.(b)]. Figure (c) gives the magnitude of the net magnetic field at the center of [...]
Figure (a) shows two wires, each carrying a current. Wire 1 consists of a circular are of radius R and two radial lengthsit carries current it=20A in the direction indicated. Wire 2 is long and straigth it carries a current i2 that can be varried and it is at distance R/2 from the centre of the are. The net magnetic field B→ due to the current is measured at the center of curvature of the are Figure (b) is a plot of the component of B→ in the direction prependicular to the figure as a function of current i2 What is the angle subtended by the arc ?
09
Sep
Figure (a) shows two wires, each carrying a current. Wire 1 consists of a circular are of radius R and two radial lengthsit carries current it=20A in the direction indicated. Wire 2 is long and straigth it carries a current i2 that can be varried and it is at distance R/2 from the centre of [...]