answersLogoWhite

0

Electrons are part of an atom, in elements etc.

Electrodes are types of medical equipment places on certain parts of your body, that send electrical pulses to your muscles to stimulate them.

User Avatar

Wiki User

15y ago

What else can I help you with?

Continue Learning about Engineering

What metrial is semicondector?

By the basic definition a semiconductor has the free electrons between conductor and insulator................. the examples are carbon,silicon,phosporous etc.,


What is the basic difference between conductors and insulators?

The difference between a conductor and a insulator is that a conductor tries to keep the warmness away and the insulator tries to keep the warmness in. An insulator is like an refrigerator, and mabey a cooler so when you go hiking it keeps the coolness inside or keeps the warmness inside!!:-)<3


Differentiate in between conductor and semiconductor and insulators using band diagram?

Conductor-one which conducts(allow current)electric city in all condition. Semiconductor-One which behaves like conductor as well as insulator depending on condition. Insulator-one which donot conduct(allow current)electric city in all condition


What is the difference between the resistance of conductor and insulator?

Conductors allow most, if not all, electricity to pass through it. This is due to "wandering electrons" that aren't tightly bound to the nucleus of the conductor itself.Resistors conduct some, but not all electricity to pass. It somewhat resists it, hence resistors.Insulators do not allow electricity to pass through it due to the electrons being so tightly bound to the nucleus.


What is the difference between conductor resistance and insulation resistance?

The resistance of a conductor is relatively low while an insulator should have very high resistance. The former is used to transmit electricity and the latter is designed to inhibit flow of electricity.

Related Questions

What are the examples of insulator and conductor?

The difference between a conductor and an insulator is that a conductor allows electrons to travel. This is because the "outer electrons" of a conductor are not anchored like those of an insulator. Conductors tend to be metals. Some examples of insulators are plastic, glass, rubber and wood.


What is the difference between a conductor and a insulater?

a conductor attracts and an insulator keeps it all together


What is the difference between a conductor or insulator?

A conductor allows the flow of electricity due to its ability to easily pass electrons, while an insulator prevents the flow of electricity due to its inability to pass electrons. Conductors typically have free electrons that can move easily, while insulators have tightly bound electrons that cannot move easily.


The difference between a good conductor and a good insulator?

A good conductor allows for the easy flow of electricity due to its high conductivity, while a good insulator restricts the flow of electricity due to its high resistance. Conductors have loosely bound electrons that can move easily, while insulators have tightly bound electrons that do not move easily.


What's the difference between a conductor and an insulator in terms of their ability to conduct electricity?

A conductor allows electricity to flow through it easily, while an insulator does not allow electricity to flow through it. Conductors have free electrons that can move easily, while insulators have tightly bound electrons that do not move easily.


What is the difference between a good conductor and a good insulator?

outer electrons of the atoms in a metal are not anchored to the nuclei of particular atoms, but are free to roam in the material. such materials are good conductors.


What is the main way that the structure of an insulator differs from the structure of a conductor?

The main difference between the structure of an insulator and a conductor is in the arrangement of their electrons. Insulators have tightly bound electrons that are not free to move easily, while conductors have loosely bound electrons that can move freely in response to an applied electric field. This difference in electron mobility is what leads to the contrasting electrical properties of insulators and conductors.


What is the difference between a counductor and an insulator?

A conductor is a material that allows the flow of electrical current, while an insulator is a material that resists the flow of electrical current. Conductors have high conductivity, allowing electrons to flow easily, whereas insulators have low conductivity, preventing the flow of electrons.


What are the differences between metal semiconductor and insulator?

Metal is a good conductor of electricity due to the presence of free electrons, while semiconductor has conductivity in between metal and insulator and its conductivity can be controlled by doping. Insulator has very low conductivity as it lacks free electrons for conduction.


Distinguish between a heat conductor and an insulator.?

A heat conductor allows heat to flow easily through it due to the movement of free electrons, such as metals. An insulator, on the other hand, inhibits the flow of heat due to the lack of free electrons or tight bonding between atoms, such as rubber or wood.


In your own words explain the difference between a conductor and an insulator?

A conductor is a material that allows the flow of electric current through it easily, due to the presence of free electrons. An insulator, on the other hand, does not allow the flow of electric current as easily, as it has very few free electrons. Insulators have high resistance to the flow of electricity, while conductors have low resistance.


What is the difference between a insualator and a conductor?

An insulator is a material that does not allow electric current to flow through it easily, while a conductor is a material that allows electric current to flow through it easily. Insulators have high resistance to electric current, while conductors have low resistance. This property is determined by the arrangement of electrons in the atoms of the material.