When discussing materials’ properties related to heat or electricity conduction, we often encounter the term “insulator.” An insulator is a substance that restricts the flow of heat or electrical current. It acts as a barrier, preventing the transmission of these energies through its structure.
On the other end of the spectrum from insulators are materials known as conductors. Conductors are substances that allow the easy flow of heat or electricity. They facilitate the movement of these energies, enabling efficient transmission through their molecular makeup.
Between insulators and conductors lie semiconductors — materials that have properties of both insulators and conductors. They can be manipulated to either inhibit or promote the flow of heat or electricity, making them essential in the field of electronics and technology.
Example Sentences With Opposite of Insulator
Antonym | Sentence with Insulator | Sentence with Antonym |
---|---|---|
Conductor | Rubber is a good insulator. | Copper is a good conductor. |
Permeable | This material is a poor insulator. | This material is highly permeable. |
Transmitting | The glass was used as an insulator. | The wire is used for transmitting. |
Conductive | Plastic is known for being an insulator. | Metal is known for being highly conductive. |
Open | By keeping the lid closed, the insulator retains heat. | By keeping the lid open, heat escapes. |
Transferable | The jacket was thick and acted as an insulator. | The thin fabric was not a good transferable of heat. |
Transparent | A good insulator blocks heat from escaping. | A transparent material lets heat pass through easily. |
Channel | Foam is a good insulator for pipes. | Metal is used as a channel for heat. |
Transmit | Wood acts as an insulator against extreme temperatures. | Metal can transmit heat quickly. |
Expose | Insulating the roof helps to keep the house warm. | Exposing the roof to the sun heats the house. |
Dissipate | Wearing thick layers of clothes helps as an insulator against the cold. | Wearing light clothes helps to dissipate heat. |
Connect | Wearing gloves acts as an insulator from the cold. | Wearing gloves allows the hands to connect with the cold. |
Nonporous | The thick fabric is a good insulator. | The thin fabric is nonporous to heat. |
Sealed | The walls were insulated to prevent heat loss. | The windows were left sealed, causing heat loss. |
Hybrid | The material used in the jacket is a good heat insulator. | The material used in the jacket is a hybrid heat conductor. |
Constrain | Insulation can constrain the flow of heat. | Good ventilation can help to contain and distribute heat evenly. |
Reveal | The purpose of the insulation is to conceal heat. | The purpose of the material is to reveal the heat. |
Conductivity | Increasing the thickness will enhance its insulator properties. | Increasing the thickness will enhance its conductivity. |
Radiate | Adequate insulation can prevent heat from radiating out. | The lack of insulation causes heat to radiate out easily. |
Aquaporin | The fabric used in the gloves is an effective insulator. | The fabric used in the gloves is an ineffective aquaporin. |
Connective | The material is a heat insulator. | The material is a heat connective. |
Divulge | Thermal insulation is used to hide heat for energy efficiency. | The absence of insulation will divulge the heat. |
Airy | Clothing serves as an insulator in the extreme cold. | Clothing that is airy will not insulate heat. |
Absorb | The jacket’s lining is a good heat insulator. | The jacket’s lining is a heat absorbent. |
Cool | Adding insulation can keep a house warm in winter. | Removing insulation can make a house cool. |
Permeability | One can use foam as an efficient heat insulator. | One cannot use foam for its high heat permeability. |
Heatproof | The thermal layer acts as an insulator against high heat. | The fabric is not heatproof and allows heat to pass through. |
Combust | The insulation protects from the transfer of heat. | The lack of insulation can lead to combust materials. |
Resistive | Fiber is often used as a heat and sound insulator. | The copper wire is a heat and sound resistive. |
Conceal | A good insulator can trap heat inside. | An air vent can cause heat to conceal outside. |
Diffuse | The thick glass acted as an insulator for heat. | The thin glass allowed heat to diffuse out. |
Emit | Proper insulation helps to contain heat in a controlled manner. | Poor insulation causes a room to emit heat in various directions. |
Isolate | Insulating the roof helps to keep the house warm. | Poor insulation can isolate the room from natural heat sources. |
Unveil | Adding more insulation will help to shield heat. | The absence of insulation will unveil the heat sources. |
Interconnected | The fiberglass material is a good insulator. | The metal wiring is an interconnected agent of heat. |
Reveal | The purpose of insulation is to conceal heat. | The material is used to reveal heat. |
Dissipative | The material is a good heat insulator. | The material is a heat dissipative. |
Disperse | Using a quilted jacket as an insulator against the cold. | Using a porous jacket causes heat to disperse easily. |
More Example Sentences With Antonyms Of Insulator
Antonym | Sentence with Insulator | Sentence with Antonym |
---|---|---|
Conductor | Insulators are materials that block the flow of electricity. | Conductors are materials that allow electricity to flow. |
Permeable | An insulator does not allow substances to pass through. | A permeable material allows substances to pass through. |
Semiconductor | An insulator restricts the flow of electric current. | A semiconductor material partially allows the flow of electric current. |
Transparent | An insulator blocks light from passing through. | A transparent material allows light to pass through. |
Dissipate | An insulator prevents the dissipation of heat. | The absence of an insulator allows heat to dissipate. |
Dissolve | An insulator prevents the substance from being dissolved. | The substance will easily dissolve in the absence of an insulator. |
Conductive | Unlike conductors, insulators are not conductive. | Materials that are conductive are the opposite of insulators. |
Expose | Insulators protect electrical wires from being exposed. | The lack of an insulator will expose the electrical wires. |
Percolate | Insulators do not allow liquids to percolate through them. | Liquids can percolate through a material that is not an insulator. |
Transmit | An insulator does not allow electrical signals to transmit. | A conductor will transmit electrical signals without any hindrance. |
Conductivity | Insulators have low conductivity since they do not conduct electricity. | Materials with high conductivity are considered opposites of insulators. |
Translucent | An insulator hinders light and is not translucent. | Materials that are translucent allow light to pass through, which is the opposite of an insulator. |
Block | Insulators act to block the passage of heat or electricity. | Removing an insulator will allow the passage of heat or electricity without any block. |
Penetrate | Insulators reduce the ability of substances to penetrate through them. | In absence of an insulator, substances can easily penetrate through. |
Channel | Insulators restrict the flow of current through a channel. | A conductor is needed to allow the flow of current through a channel. |
Recede | By using an insulator, the risk of power surges can be prevented from receding. | Without an insulator, the chances of power surges receding are higher. |
Filter | An insulator blocks the flow of contaminants by acting as a filter. | A material that is not an insulator will not act as a filter and allow contaminants to pass through. |
Discharge | Insulators prevent the discharge of electricity. | Without an insulator, there can be a sudden discharge of electricity. |
Relinquish | By insulating the wire, it does not relinquish its current. | Without insulation, the wire may relinquish its current easily. |
Conduct | Materials like rubber are good insulators and do not conduct electricity. | Metals, on the other hand, can easily conduct electricity. |
Influence | Insulators shield objects from the influence of electric currents. | Without an insulator, objects are subject to the full influence of electric currents. |
Transmitting | Insulators do not support transmitting electric signals. | Conduits are used for transmitting electric signals, oppositely to insulators. |
Disperse | Insulators do not disperse heat efficiently. | Materials that do disperse heat are unsuitable to be used as insulators. |
Magnetize | Insulators inhibit the ability to magnetize objects. | Materials that are not insulators can be easily magnetized. |
Undisclosed | Properly using an insulator keeps valuable information undisclosed. | Without an insulator, information may not remain undisclosed. |
Diffuse | Insulators do not allow heat to diffuse from one area to another. | Areas without insulators allow heat to diffuse freely. |
Extinguish | Insulators prevent the current from being extinguished. | Current can be easily extinguished without an insulator. |
Emit | The purpose of an insulator is to not emit any electrical charge. | Material that emits electrical charge contradicts the property of an insulator. |
Converge | Insulators prevent the electric currents from converging. | Electric currents can readily converge without the presence of insulators. |
Leakage | Properly insulating wires prevent any leakage of electricity. | A lack of insulation can lead to electrical leakage. |
Opaque | Insulators are generally opaque, blocking light and visibility. | Opaque materials are the opposite of insulators in terms of allowing visibility. |
Engage | Insulators do not allow electricity to engage easily between objects. | Objects without insulators can engage in instantaneous electrical transmission. |
Transparent | Insulators are not transparent, obstructing the view through them. | Transparent materials allow a clear view, which is the inverse of insulators. |
Outro
Antonyms of insulator, opposite of insulator and insulator ka opposite word are the same thing. In conclusion, the opposite of an insulator is a conductor. Conductors are materials that allow the easy flow of electricity or heat through them. Unlike insulators, which resist the flow of electricity or heat, conductors facilitate the movement of these energy forms. This distinction between insulators and conductors is crucial in various applications, from electrical wiring to thermal insulation.
Understanding the difference between insulators and conductors is essential in designing efficient and safe systems. By identifying the properties and characteristics of each type of material, engineers and designers can make informed decisions to optimize the performance of their creations. Whether it is ensuring electrical safety in a household wiring system or maximizing thermal efficiency in industrial processes, the choice between insulators and conductors plays a vital role in the overall effectiveness of a design.