Demagnetisation effect refers to the reduction of the magnetic strength of a material over time due to external factors like heat or mechanical stress. Cross field effect occurs when an electric field is applied perpendicular to a magnetic field, causing a deviation in the trajectory of charged particles such as electrons.
Electric field lines do not cross each other because the electric field at any point is determined by the net effect of all the charges in the vicinity. If field lines were to cross, it would imply that two different field strengths or directions would be acting on the same point, which is not physically possible. This principle is based on the superposition principle in physics.
No, electric field lines do not cross each other. If they did, it would imply that there are multiple directions for the electric field at the same point, which is not possible. The electric field lines always repel or attract each other, but they never cross.
No, electric field lines cannot cross each other because they represent the direction of the electric field at any given point, and if they were to cross, it would imply that the electric field has multiple directions at that point, which is not physically possible.
The mathematical expression for the magnetic field cross product in physics is given by the formula: B A x B.
The AC Hall effect is used to measure the sign and magnitude of an alternating magnetic field, whereas the DC Hall effect is used to measure the sign and magnitude of a steady magnetic field. In AC Hall effect, the magnetic field changes direction periodically, while in DC Hall effect, the magnetic field is constant.
Electric field lines do not cross each other because the electric field at any point is determined by the net effect of all the charges in the vicinity. If field lines were to cross, it would imply that two different field strengths or directions would be acting on the same point, which is not physically possible. This principle is based on the superposition principle in physics.
Magnetic field lines don't cross.
There are two types of field effect transistors:junction field effect transistors andmetal-oxide semiconductor field effect transistors.
Magnetron are know are cross field microwave tube because the E field and M field are perpendicular to each other
i guess cross doesnt have an effect on ghost...
No, electric field lines do not cross each other. If they did, it would imply that there are multiple directions for the electric field at the same point, which is not possible. The electric field lines always repel or attract each other, but they never cross.
Depends on the field spell. Inherently, Armityle has no effect that says he is immune to the effect of field spell cards.
No, electric field lines cannot cross each other because they represent the direction of the electric field at any given point, and if they were to cross, it would imply that the electric field has multiple directions at that point, which is not physically possible.
No.No.No.No.
Never
In spirituality, cross magnetization occurs when two mediums treat a patient at the same time.In physics, specifically electromagnetism, cross magnetization occurs when the flux-density distribution of the magnetic field that's defining the neutral plane gets distorted by a secondary magnetic field, known as the armature field. This distorting effect, which effectually changes the direction of the neutral plane, is called the armature reaction drop, and is controlled by varying the current through whichever of the two magnetizing devices was designed as the electromagnet.
MOSFET is Metal Oxide Semiconductor Field Effect Transistor. IGFET Insulated Gate Field Effect Transistor. But these expressions are practically synonyms.