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If a proton were placed within the electrostatic?
If a proton were placed within an electrostatic field, it would experience a force due to the electric field created by other charged particles. The direction of this force would depend on the orientation of the electric field lines, with the proton being attracted toward negatively charged regions and repelled by positively charged regions. The magnitude of the force can be calculated using Coulomb's law, which states that the force is proportional to the product of the charges and inversely proportional to the square of the distance between them. This interaction can cause the proton to accelerate in the direction of the net electric force acting on it.
In young's double slit experiment two slits are made 1mm apart and the screen is placed 1m awaywhat is the fringe separation when blue light of 500cm is used?
The fringe separation can be calculated using the formula: fringe separation = wavelength * distance to screen / distance between slits. For blue light with a wavelength of 500 nm and a distance of 1m to the screen and 1mm between the slits (1mm = 0.1 cm), the fringe separation comes out to be 0.05 mm or 50 micrometers.
A negatively charged object is placed within a positive electric field. what happens to the object?
Electric Field between positive and negative charges. If the Electric Field in which both the positive and negative charges are present is stronger than the Electric Field between the two charges we are talking about, the the negative charge will move away from the positive charge in that positive direction of the field. If not, then the negative charge will get attracted to the positive charge and stay at the position of the positive charge. It will be pulled toward the source of the electric field. (Novanet)
Where is the positive charge placed?
The positive charge is typically placed in a location where it can influence the behavior of nearby charged particles or electric fields. In electrostatics, positive charges are often represented by protons or positive ions, and they can be found in various configurations, such as isolated in space, at the center of an atom, or on the surface of a conductor. The specific placement depends on the context of the problem or system being analyzed.
Why is the filament of electric kettle put between mica sheets?
The filament of an electric kettle is placed between mica sheets to provide electrical insulation and thermal stability. Mica is a good insulator, preventing the electric current from contacting other components and reducing the risk of short circuits. Additionally, mica can withstand high temperatures, ensuring the filament operates safely and efficiently without degrading. This arrangement enhances the kettle's safety and longevity.
What is the force between two charge particle when medium is placed between them?
The force between two charged particles in a medium will depend on the properties of the medium, such as its dielectric constant. The force will be reduced compared to if the particles were in a vacuum, due to the screening effect of the medium on the electric field between the charges. The force will be weaker as the dielectric constant of the medium increases.
What happens when a charged particle is placed in the electric field of another particles with the same charge?
they either attract or repel
What are the different dimensions of the electric field and how do they affect the behavior of charged particles in a given space?
The electric field has two main dimensions: magnitude and direction. The magnitude determines the strength of the field, while the direction indicates the path a charged particle will follow when placed in the field. Charged particles will experience a force when placed in an electric field, causing them to move in a specific direction based on the field's orientation. The behavior of charged particles in a given space is influenced by the strength and direction of the electric field present.
What is the shape of the electric field between two plates of opposite charge when they are placed near each other?
The shape of the electric field between two plates of opposite charge when they are placed near each other is uniform and parallel to the plates.
What is the space around a charged object where electric forces act?
The space around a charged object where electric forces act is known as the electric field. This electric field exerts a force on any other charged particles that are placed within it, causing them to experience an electric force.
The space around a particle through which an electric charge can exert force is?
The space around a particle through which an electric charge can exert force is referred to as the electric field. This field exists at all points in space and its strength diminishes with distance from the charged particle according to an inverse square law. Other charged particles placed in this electric field will experience a force due to the interactions between their charges.
Is there a law that the nativity cannot be placed outside of a public building?
In America that would likely cross the bounds of the separation between Church and State.
An apple is placed on a kitchen counter. How could the movement of the particles in the apple be decreased?
Sun
How can one calculate the electric field between two plates?
To calculate the electric field between two plates, you can use the formula E V/d, where E is the electric field strength, V is the voltage difference between the plates, and d is the distance between the plates. This formula helps determine the force experienced by a charge placed between the plates.
What is the effect of a dielectric material on the electric field of a capacitor?
A dielectric material placed between the plates of a capacitor reduces the electric field strength within the capacitor, increasing its capacitance. This is because the dielectric material polarizes in response to the electric field, creating an opposing electric field that weakens the overall field between the plates.
If a proton were placed within the electrostatic?
If a proton were placed within an electrostatic field, it would experience a force due to the electric field created by other charged particles. The direction of this force would depend on the orientation of the electric field lines, with the proton being attracted toward negatively charged regions and repelled by positively charged regions. The magnitude of the force can be calculated using Coulomb's law, which states that the force is proportional to the product of the charges and inversely proportional to the square of the distance between them. This interaction can cause the proton to accelerate in the direction of the net electric force acting on it.
What happens when colloidal solution is placed between 2 electrically charged plate?
Depending on the charge colloidal particles are attracted to catode or anode.
