0
The visible field may not change as the mechanical stage is moved if the sample or object being observed is larger than the field of view of the microscope. In this case, as the stage moves, different sections of the sample come into view while the overall visible field remains relatively constant.
What else can I help you with?
Field does not change as mechanical stage is moved?
This issue may be caused by a problem with the mechanical stage control or the microscope's internal mechanism. Check that the mechanical stage is properly inserted and set up. If the issue persists, it may require professional inspection or repair.
Can particles be moved?
Yes, particles can be moved by various forces such as gravity, electromagnetic forces, and mechanical forces. These forces can cause particles to change position or be displaced from their original location.
Why is the deflection in the galvanometer reversed when the magnet is moved in and out in a solenoid?
When the magnet is moved into the solenoid, the change in magnetic field induces an electric current in the solenoid. This induced current then creates a magnetic field that opposes the initial magnetic field created by the permanent magnet. This opposing magnetic field causes the galvanometer deflection to be reversed.
What can cause a galvanometer needle to move?
A galvanometer needle can be moved by the flow of electric current through its coil, the presence of a magnetic field, or mechanical disturbances like vibrations or shocks.
When a current-carrying wire is moved by megnetic field electrical energy is converted into mechanical energy?
When a current-carrying wire moves in a magnetic field, a force is created that causes the wire to move. This process converts electrical energy (from the current in the wire) into mechanical energy (motion of the wire). This principle is used in devices like electric motors and generators.
What is the problem using the microscope when field does not change as mechanical stage is moved?
In microscopy, the mechanical stage is a way to move the slide around on the stage. The field does not change as the mechanical stage is moved because of the mechanical contact between the specimen and the objective lens.
Field does not change as mechanical stage is moved?
This issue may be caused by a problem with the mechanical stage control or the microscope's internal mechanism. Check that the mechanical stage is properly inserted and set up. If the issue persists, it may require professional inspection or repair.
What distinguished electromagnetic waves from mechanical waves?
In a mechanical wave, some material is between stretched or moved from its ground, or normal, state. In an EM wave, a changing electrical field creates a changing magnetic field, which creates a changing E-field; and the process continues until these fields meet something that absorbs them. There is not material that is stretched or moved, the fields just operate on their own. EM waves operate quite well in the absence of any material whatsoever; mechanical waves need some media to propogate in.
Can particles be moved?
Yes, particles can be moved by various forces such as gravity, electromagnetic forces, and mechanical forces. These forces can cause particles to change position or be displaced from their original location.
Why is the deflection in the galvanometer reversed when the magnet is moved in and out in a solenoid?
When the magnet is moved into the solenoid, the change in magnetic field induces an electric current in the solenoid. This induced current then creates a magnetic field that opposes the initial magnetic field created by the permanent magnet. This opposing magnetic field causes the galvanometer deflection to be reversed.
What can cause a galvanometer needle to move?
A galvanometer needle can be moved by the flow of electric current through its coil, the presence of a magnetic field, or mechanical disturbances like vibrations or shocks.
Formula of mechanical advantage?
Distance moved by input force / distance moved by output force
Electromagnetic induction occurs in a coil when there is a change in?
Could you specify "coil"? Generally the electromagnetic induction occures due to variation of the B-field (magnetic flux density), variation of the current, I, or a change in the total area in which an electric current span over a B-field.
When a current-carrying wire is moved by megnetic field electrical energy is converted into mechanical energy?
When a current-carrying wire moves in a magnetic field, a force is created that causes the wire to move. This process converts electrical energy (from the current in the wire) into mechanical energy (motion of the wire). This principle is used in devices like electric motors and generators.
True or false when a magnet is moved electricity is formed?
True. When a magnet is moved near a conductor, such as a wire, it causes a change in the magnetic field around the conductor. This change induces an electric current to flow in the conductor, resulting in the formation of electricity.
How is mechanical energy turned into electric energy?
A wire moving in a magnetic fields creates electric current. Moving a coil of wire into a magnetic field creates a voltage across the ends of the coil. The voltage equals the number of turns times the rate of change of magnetic flux. If a resistor is placed across the coil and it is moved into the field again, current flows in the resistor, creating energy in the form of heat. At the same time a force will be needed to push the coil into the field, thus providing the mechanical energy for this process. Electrical engineers have to understand how to make the process as efficient as possible.
Where can the fulcrum be moved to result in a mechanical advantage of 5 for the lever?
Up your bum.
