Like poles repel each other, while opposite poles attract each other.
Same poles attract where as opposite poles repel. N-N= repel N-S=attract S-N=attract S-S=repel
Yes, the rule for the interaction between magnetic poles is similar to the rule for the interaction between charged particles. Opposite magnetic poles attract each other, while like magnetic poles repel each other, similar to the way opposite charges attract and like charges repel in electricity.
The right hand rule is important in physics for determining the direction of a positive or negative charge moving in a magnetic field. By using your right hand and aligning your fingers with the direction of the magnetic field and your thumb with the direction of the charge's motion, you can determine the direction of the force acting on the charge. This helps in understanding the behavior of charged particles in magnetic fields.
Reversing the current in a current-carrying wire in a magnetic field will reverse the direction of the force experienced by the wire. This is in accordance with Fleming's left-hand rule, where the thumb represents the current, index finger is the magnetic field, and middle finger indicates the force direction.
The right hand rule for electromagnetic waves is used to determine the direction of the electric field, magnetic field, and wave propagation in relation to each other. It helps in understanding the orientation and behavior of electromagnetic waves in various situations.
Same poles attract where as opposite poles repel. N-N= repel N-S=attract S-N=attract S-S=repel
Yes, the rule for the interaction between magnetic poles is similar to the rule for the interaction between charged particles. Opposite magnetic poles attract each other, while like magnetic poles repel each other, similar to the way opposite charges attract and like charges repel in electricity.
a pill
observation
rule that describes the behavior of something in nature
The Answer is yes. the Right hand rule, is a rule that can not be broken & must obey the law of Physics. So therefore the right hand rule does apply.
If you reverse the connection between the wire and the battery poles, the direction of the magnetic field around the wire will also reverse. This is because the flow of current through the wire determines the direction of the magnetic field according to the right-hand rule.
Outside the dubious field of magnetic therapists, the terms 'positive' and 'negative' are not applied to magnetic polarities. Furthermore, we do not describe magnetic polarity as a 'charge'. However, magnetic poles and electric charges follow the same rule -i.e. like poles repel while unlike poles attract.
A rule of nature is a consistent pattern or principle that governs the behavior or operation of the natural world. It is a fundamental, universal law that describes how things work in nature.
The rule for the interaction between the magnetic poles is similar to the interaction between the electrical charges in terms of the attraction and repulsion. In both cases the unlike poles attract while the like poles repel.
The right hand rule is important in physics for determining the direction of a positive or negative charge moving in a magnetic field. By using your right hand and aligning your fingers with the direction of the magnetic field and your thumb with the direction of the charge's motion, you can determine the direction of the force acting on the charge. This helps in understanding the behavior of charged particles in magnetic fields.
Opposite poles attract, like poles repel. (same with electric charge)