磁力公式: Magnetic Force Formula: F=BIL1. Explanation in EnglishThe formula F=BIL describes the force (F) exerted on a current-carrying conductor in a magnetic field. It applies to a straight conductor of length L
Formula For Magnetic Force On A Current-carrying Conductor In A Magnetic Field (A Level) 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. Th...
A significant phenomenon associated with devices used in nano/microelectromechanical systems (N/MEMS) is the dynamic pull-in instability. The basic theme of this manuscript is to study the nonlinear oscillation and dynamic pull-in instability in an N/MEMS switch with a current carrying conductor ...
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...
Which of the statement given below correctly describes the magnetic field near a long , straight current -carrying conductor ? AThe magnetic lines of force are in a plane, perpendicular to the conductor in the form of straight lines. BThe magnetic lines of force are parallel to the conductor ...
In the year 1879, he discovered the Hall effect, the substance of which is the transversal electric voltage in a current loaded conductor or in a semiconductor located in an outer magnetic field. In two-dimensional electron systems, the quantum Hall effect appears in strong magnetic fields and ...
Answer to: Calculate the force (in N) a piano tuner applies to stretch a steel piano wire 7.5 mm, if the wire is originally 0.850 mm in diameter...
Explain in terms of force vectors why a "tug-of-war" can't be conducted with a pair of steel pipes welded to a wheeled safe to keep the pipes' angle constant. Frictional Force: Consider an object on the ...
1. A force measuring transducer comprising: a mounting base; a force sensitive member including an electrical element; a flexible member having one end secured to said mounting base and other end secured to said force sensitive member; and an electrically conductive material disposed on said...
This is a dynamic gravitational force gradient transducer wherein a dynamic gravitational force gradient having a characteristic frequency interacts with a dynamic stress-energy-momentum tensor in a d