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The frequency of vertical oscillations of the three spring-mass system, shown in figure, is
30
Oct
The frequency of vertical oscillations of the three spring-mass system, shown in figure, is is shown in figure. The frequency of vertical oscillations of the three spring-mass system October 30, 2020 Category: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Posted in: Cengage NEET by C.P Singh , Chapter 13 - Simple Harmonic Motion , Part 1 ,
Tags: is , shown in figure. , The frequency of vertical oscillations of the three spring-mass system ,
Consider a body, shown in figure, consisting of two identical balls, each of mass M connected by a light rigid rod. If an impulse J = MV is imparted to the body at one of its ends what would be it angular velocity?
23
Oct
Consider a body, shown in figure, consisting of two identical balls, each of mass M connected by a light rigid rod. If an impulse J = MV is imparted to the body at one of its ends what would be it angular velocity? Consider a body consisting of two identical balls each of mass M [...]
Posted in: Cengage NEET by C.P Singh , Chapter 11 - Rotational Motion , Part 1 ,
Tags: Consider a body , consisting of two identical balls , each of mass M connected by a light rigid rod. If an impulse J = MV is imparted to the body at one of its ends what would be it angular velocity? , shown in figure. ,
In the circuit shown in Fig. A conducting wire HE is moved with a constant speed v towards left. The complete circuit is placed in a uniform magnetic field B perpendicular to the plane of circuit inwards. The current in HKDE is
20
Oct
In the circuit shown in Fig. A conducting wire HE is moved with a constant speed v towards left. The complete circuit is placed in a uniform magnetic field B perpendicular to the plane of circuit inwards. The current in HKDE is horizontal rails connected to i g ​ . The entire system lies in [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: horizontal rails connected to i g ​ . The entire system lies in a vertical magnetic field B. The velocity of the wire as a function of time is , sends a constant current i through the circuit. The wire ab has a length l and mass m slide on the smooth , shown in figure. , The current generator i g ​ ,
A metallic wire is folded to form a square loop of side a. It carries a current i and is kept perpendicular to the region of uniform magnetic field B. If the shape of the loop is changed from square to an equilateral triangle without changing the length of the wire and current. The amount of work done in doing so is
20
Oct
A metallic wire is folded to form a square loop of side a. It carries a current i and is kept perpendicular to the region of uniform magnetic field B. If the shape of the loop is changed from square to an equilateral triangle without changing the length of the wire and current. The amount [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: horizontal rails connected to i g ​ . The entire system lies in a vertical magnetic field B. The velocity of the wire as a function of time is , sends a constant current i through the circuit. The wire ab has a length l and mass m slide on the smooth , shown in figure. , The current generator i g ​ ,
The magnetic field in a region is given by B = B [ 1+ x/a ] k. A square loop of edge length d is placed with its edge along the x – and y axes. THe loop is moved with a constant velocity v = v0 i. The emf included in the loop is
20
Oct
The magnetic field in a region is given by B = B [ 1+ x/a ] k. A square loop of edge length d is placed with its edge along the x – and y axes. THe loop is moved with a constant velocity v = v0 i. The emf included in the loop is [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: horizontal rails connected to i g ​ . The entire system lies in a vertical magnetic field B. The velocity of the wire as a function of time is , sends a constant current i through the circuit. The wire ab has a length l and mass m slide on the smooth , shown in figure. , The current generator i g ​ ,
The current generator i g ​ , shown in figure, sends a constant current i through the circuit. The wire ab has a length l and mass m slide on the smooth, horizontal rails connected to i g ​ . The entire system lies in a vertical magnetic field B. The velocity of the wire as a function of time is
20
Oct
The current generator i g ​ , shown in figure, sends a constant current i through the circuit. The wire ab has a length l and mass m slide on the smooth, horizontal rails connected to i g ​ . The entire system lies in a vertical magnetic field B. The velocity of the wire [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: horizontal rails connected to i g ​ . The entire system lies in a vertical magnetic field B. The velocity of the wire as a function of time is , sends a constant current i through the circuit. The wire ab has a length l and mass m slide on the smooth , shown in figure. , The current generator i g ​ ,
Give the symbol, and the truth table of each of the two logic gates, obtained by using the two gate combinations, shown in figure.
14
Sep
Give the symbol, and the truth table of each of the two logic gates, obtained by using the two gate combinations, shown in figure. and the truth table of each of the two logic gates Give the symbol obtained by using the two gate combinations shown in figure. September 14, 2020 Category: Uncategorised (JEE Advanced [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: and the truth table of each of the two logic gates , Give the symbol , obtained by using the two gate combinations , shown in figure. ,