Force On A Current-carrying Conductor When current-carrying conductor is placed in a magnetic field, it will experience a force when the magnetic field direction is not parallel to the current direction. The magnitude of the force is maximum when the magnetic field and current directions are mutu...
Measuring the magnetic force on a current-carrying conductor.Presents an efficient method for the measurement of the magnetic force acting on a current-carrying conductor, which uses an ordinary digital balance. Method; Results.HerremanW.Huysentruyt...
Magnetic Force on Current-carrying Conductor When a charged particle is in motion, it experiences a magnetic force in a magnetic field. Similarly, when a current-carrying wire is placed in a magnetic field, it also experiences a force. The current-carrying wire experienced magnetic force due to...
作者: FJ Lowes 摘要: MCCAIGhas suggested that a shape factor might be involved in determining the force on a current-carrying wire in a magnetic field when there is a permeability contrast between the wire and its surroundings. DOI: 10.1038/246208A0 收藏...
A closed loop carrying current is placed so that its plane is perpendicular to the long current carrying straight conductor as shown in the figure. The net force acting on the loop is [where WZ and XY are circular arcs) View Solution A square loop is placed near a long current carrying...
Force/Torque on wires 配對 A current-carrying conductor experiences no magnetic force when placed in a certain manner in a uniform magnetic field. Explain. 點擊卡片即可翻轉 👆 If the current is in a direction parallel or antiparallel to the magnetic field, then there is no force....
the net force is dependent not only on the potential difference between tip and sample but also on the bias applied at each conductor[31]. So, a general capacitance model based on capacitance coefficients has been proposed[31]able to take into account, e.g. the sign inversion of electrostati...
(b) A rectangular loop of sizel×bcarrying a steady current I is placed in a uniform magnetic field→B. Prove that the torque→τacting on the loop is given by →τ=→m×→B,where→mis the magnetic moment of the loop. View Solution ...
Figure 17.1.Electromagnetic Field Surrounding a Current Carrying Conductor. The current has two components, namely, a conducting current,i, and a polarizing current (δp/dt). Polarization within a mineral (or metal) is thus induced by an electrical force which polarizes the orbital spin motion ...
This force provided by the surface is known as the frictional force. Answer and Explanation: "Tug-of-war" is a game where the frictional force acting determines the winner of the game. The person on two e...