F is force acting on a current carrying conductor,B is magnetic flux density (magnetic field strength), I is magnitude of current flowing through the conductor, is length of conductor, is angle that conductor
When a current carrying conductor is placed at right angles to a magnetic field, it is found that a force acts on the conductor in a direction perpendicular to the direction of both the magnetic field and the current. Explanation Consider a straight conductor carrying a current of I amperes....
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...
b. Calculate the magnetic force on a current-carrying conductor. Magnetic force: Magnetic force can be defined as a force that is experienced by a magnetic conductor or magnate when it is placed in a magnetic field. Magnetic force c...
Find the magnitude and direction of force on following current carrying wires. Direction of magnetic field is indicated in each case. View Solution Direction of magnetic field at equatorial point View Solution The direction of force on a current carrying conductor in a magnetic field is given by...
(1.13), the initial peak current is equal to ip1=ip2=2×10×[1+exp(−π15)]=2.56×10=25.6kA The attraction forces on each conductor are calculated as F=4π10−7(25.6×103)22π10.5=262N/m The electromagnetic forces acting on three rigid, parallel and round conductors, shown in ...
Find the magnitude and direction of force on following current carrying wires. Direction of magnetic field is indicated in each case. View Solution Direction of magnetic field at equatorial point View Solution The direction of force on a current carrying conductor in a magnetic field is given by...
For which geometry is shown below will the force on the current carrying wire be the largest? 1. A. 2. B. 3. C. 4. D. Force due to Current:A conductor can experience a force in the magnetic field if it carries some currents. The occurred force known...
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 ...
ever bigger particle accelerators in the force-acting and particle-transmuting processes. Based on ...