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A very long staright conductor and an isoceles triangular conductor lie in a plane and separated from each other as shown in the figure. Given a=10cm, b=20cm and h=10cm (a) Find their coefficeint of mutual induction. (b) If current in the staright wire is increasing at a rate of 2A//s , find the direction and magnitude of current in the triangular wire. [Diameter of the wire crosss-section d=1 mm, resistivity of the wire, rho=1.8xx10^(-8)Omega-m]
25
Aug
A very long staright conductor and an isoceles triangular conductor lie in a plane and separated from each other as shown in the figure. Given a=10cm, b=20cm and h=10cm (a) Find their coefficeint of mutual induction. (b) If current in the staright wire is increasing at a rate of 2A//s , find the direction and [...]
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Tags: A very long staright conductor and an isoceles triangular conductor lie in a plane and separated from each other as shown in the figure. Given a=10cm , b=20cm and h=10cm (a) Find their coefficeint of mutual induction. (b) If current in the staright wire is increasing at a rate of 2A//s , find the direction and magnitude of current in the triangular wire. [Diameter of the wire crosss-section d=1 mm , resistivity of the wire , rho=1.8xx10^(-8)Omega-m] ,
what is the tangential force acting on electron
25
Aug
what is the tangential force acting on electron what is the tangential force acting on electron August 25, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Two simple harmonic motions given by, x = asin (ωt + δ) and y = asin(ωt + δ + π\2) act on a particle simultaneously, then the motion of particle will be
25
Aug
Two simple harmonic motions given by, x = asin (ωt + δ) and y = asin(ωt + δ + π\2) act on a particle simultaneously, then the motion of particle will be then the motion of particle will be Two simple harmonic motions given by x=asin(ωt+δ) and y=asin(ωt+δ+π\2) act on a particle simultaneously August 25, [...]
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Tags: then the motion of particle will be , Two simple harmonic motions given by , x=asin(ωt+δ) and y=asin(ωt+δ+π\2) act on a particle simultaneously ,
A wire carrying current i has the configuration as shown in figure.Two semi-infinite straight sections,both tangent to the same circle are connected by a circular arc of central angle θ,along the circumference of the circle,with all sections lying in the same plane.What must θ be for B to be zero at the centre of the circle?
25
Aug
A wire carrying current i has the configuration as shown in figure.Two semi-infinite straight sections,both tangent to the same circle are connected by a circular arc of central angle θ,along the circumference of the circle,with all sections lying in the same plane.What must θ be for B to be zero at the centre of the [...]
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Tags: A wire carrying current i has the configuration as shown in figure.Two semi-infinite straight sections , along the circumference of the circle , both tangent to the same circle are connected by a circular arc of central angle θ , with all sections lying in the same plane.What must θ be for B to be zero at the centre of the circle? ,
When an oscillator completes 100 oscillations its amplitude reduces to 1\3 of its initial value. What will be its amplitude when it completes 200 oscillations?
25
Aug
When an oscillator completes 100 oscillations its amplitude reduces to 1\3 of its initial value. What will be its amplitude when it completes 200 oscillations? When an oscillator completes 100 oscillations its amplitude reduces to 1\3 of its initial value. What will be its amplitude when it completes 200 oscillations? August 25, 2020 Category: Chapter [...]
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Tags: When an oscillator completes 100 oscillations its amplitude reduces to 1\3 of its initial value. What will be its amplitude when it completes 200 oscillations? ,
A particle moving along the X-axis executes simple harmonic motion, then the force acting on it is given by where, A and K are positive constants.
25
Aug
A particle moving along the X-axis executes simple harmonic motion, then the force acting on it is given by where, A and K are positive constants. A and K are positive constants. A particle moving along the X-axis executes simple harmonic motion then the force acting on it is given by where August 25, 2020 [...]
Posted in: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: A and K are positive constants. , A particle moving along the X-axis executes simple harmonic motion , then the force acting on it is given by where ,
A body is executing S.H.M. When its displacement from the mean position is 4 cm and 5 cm, the corresponding velocity of the body is 10 cm/sec and 8 cm/sec. then the time period of the body is
25
Aug
A body is executing S.H.M. When its displacement from the mean position is 4 cm and 5 cm, the corresponding velocity of the body is 10 cm/sec and 8 cm/sec. then the time period of the body is A body is executing S.H.M. When its displacement from the mean position is 4 cm and 5 [...]
Posted in: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: A body is executing S.H.M. When its displacement from the mean position is 4 cm and 5 cm , the corresponding velocity of the body is 10 cm/sec and 8 cm/sec. then the time period of the body is ,
In the shown in the figure AC and BD are straight lines and CED and AFB are semicircular with radii r and 4r, respectively. The centre setip is lying in the same plane. If i is current entering at A what fraction of i will flow in the ACEDB such that resultant magnetic field at O is zero.
25
Aug
In the shown in the figure AC and BD are straight lines and CED and AFB are semicircular with radii r and 4r, respectively. The centre setip is lying in the same plane. If i is current entering at A what fraction of i will flow in the ACEDB such that resultant magnetic field at [...]
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Tags: In the shown in the figure AC and BD are straight lines and CED and AFB are semicircular with radii r and 4r , respectively. The centre setip is lying in the same plane. If i is current entering at A what fraction of i will flow in the ACEDB such that resultant magnetic field at O is zero. ,
If a simple harmonic oscillator has got a displacement of 0.02 m and acceleration equal to 2.0 m/s^2 at any time, the angular frequency of the oscillator is equal to
25
Aug
If a simple harmonic oscillator has got a displacement of 0.02 m and acceleration equal to 2.0 m/s^2 at any time, the angular frequency of the oscillator is equal to If a simple harmonic oscillator has got a displacement of 0.02 m and acceleration equal to 2.0 m/s^2 at any time the angular frequency of [...]
Posted in: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: If a simple harmonic oscillator has got a displacement of 0.02 m and acceleration equal to 2.0 m/s^2 at any time , the angular frequency of the oscillator is equal to ,
A uniform magnetic field of intensity 1T is applied in a circular region of radius 0.1 m, directed into the plane of paper. A charged particle of mass 5xx10^(-5)kg and charge q=5xx10^(-4)C enters the field with velocity 1//sqrt(3)m//s making an angle of phi with a radial line of circular region in such a way that it passes through centre of applied field the angle phi is
25
Aug
A uniform magnetic field of intensity 1T is applied in a circular region of radius 0.1 m, directed into the plane of paper. A charged particle of mass 5xx10^(-5)kg and charge q=5xx10^(-4)C enters the field with velocity 1//sqrt(3)m//s making an angle of phi with a radial line of circular region in such a way that [...]
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Tags: A uniform magnetic field of intensity 1T is applied in a circular region of radius 0.1 m , are placed mutually perpendicular to each other and each having its centre at the origin of coordinate system. If current I is flowing through each ring , each having equal radius R , then the magnitude of the magnetic field at the common centre is , Three rings ,