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Are cathode rays deflected toward a negatively charged plate in an electric field?
Yes, cathode rays are deflected towards a positively charged plate in an electric field. The negatively charged particles in the cathode rays are attracted to the positive plate, causing the deflection.
How do neutral objects behave when placed near charged objects?
Neutral objects near charged objects will either be attracted or repelled depending on the charge of the nearby object. If the charged object is positive, neutral objects will be attracted towards it; if it is negative, neutral objects will be repelled. This is due to the redistribution of charges in the neutral object when it interacts with the charged object.
Are anions attracted to the anode?
Yes, anions are negatively charged particles that are attracted to the positively charged anode in an electrolytic cell. This is because opposite charges attract each other, causing the anions to move towards the anode during the electrolysis process.
What will happen to a spherical magnet when it enters the magnetic field of a bar magnet?
The spherical magnet will experience a force that will try to align it with the magnetic field of the bar magnet. Depending on the orientation of the spherical magnet and the bar magnet, it may either be attracted or repelled. If the polarity of the two magnets is aligned, they will be attracted to each other; if the polarity is opposite, they will be repelled.
Does static charge and aluminum foil attract?
Yes, static charge can attract aluminum foil due to the conductivity of the metal. When a charged object is brought close to the foil, the electrons in the foil are repelled to one side, creating an attraction towards the charged object.
Are cathode rays deflected toward a negatively charged plate in an electric field?
Yes, cathode rays are deflected towards a positively charged plate in an electric field. The negatively charged particles in the cathode rays are attracted to the positive plate, causing the deflection.
What will happen to the electrons in a neutral object if a negatively charged balloon is brought near the object?
The electrons in the neutral object will be attracted towards the negatively charged balloon, causing them to move slightly towards the side of the object closest to the balloon. This redistribution of electrons creates a slight imbalance in charge on the object, resulting in a temporary induced charge separation.
How do neutral objects behave when placed near charged objects?
Neutral objects near charged objects will either be attracted or repelled depending on the charge of the nearby object. If the charged object is positive, neutral objects will be attracted towards it; if it is negative, neutral objects will be repelled. This is due to the redistribution of charges in the neutral object when it interacts with the charged object.
How a charged rod placed near an uncharged metal object can repel?
When a charged rod is brought near an uncharged metal object, it induces a separation of charges within the metal object causing the electrons to move away from the charged rod. This separation of charges creates an attractive force between the charged rod and the metal object, leading to the repulsion of the metal object.
What involves the movement of electrons in neutral object due to the electric feild produced by a charged object?
When a charged object is brought close to a neutral object, the electric field from the charged object can cause the electrons in the neutral object to be attracted or repelled. This movement of electrons results in the neutral object becoming polarized, as the electrons are pushed away from or pulled towards the charged object.
How electron is accelerated by van Degraff generator?
In a Van de Graaff generator, electrons are accelerated by being repelled by the negatively charged dome and attracted by the positively charged belt. This creates an electric field that accelerates the electrons as they move towards the dome. The higher the voltage applied to the generator, the greater the acceleration of the electrons.
Why is tin foil attracted to a negatively charged surface?
When a negatively charged surface approaches a piece of foil, electrons in the foil move to the far side, as they are repelled by the negative charge. This means that the side near the charged surface is positively charged while the far side is negatively charged. Since the electrical force decreases with increasing distance, the attraction experience by the positive near side of the foil will be slightly stronger than the repulsive force of the negative far side. As a result, the foil will experience a net attraction to the charged surface.
Why electrons move in electricity?
Electrons will move in response to an electric potential - also known as a voltage. The electron will be attracted towards, or repelled from, one direction, due to this voltage.
Why will a charged object be attracted to you?
A charged object will be attracted to you if you have an opposite charge because opposite charges attract each other due to the electrostatic force. This force pulls the charged object towards you, resulting in an attractive interaction.
How do oppositely charged particles behave?
Oppositely charged particles are attracted to each other due to the electromagnetic force. This attraction causes them to move towards each other and eventually form a bond or interact in some way. Positively charged particles are attracted to negatively charged particles, and vice versa.
How do they get the electrons moving?
to actually get the electrons moving there needs to be an electric potential better known as voltage. the voltage allows the electrons to be attracted towards, repelled from in one direction across cables
Does current always go from positive to negative?
We call this Conventional Current Flow, where imaginary positively charged particles are repelled away from a positive charge and attracted towards a negative charge.The reality is that electrons are actually flowing through the conductor. Electrons are negatively charged particles and flow from negative to positive. It's just easier to think of a positive current flowing than a negative current.
