Antonyms for conductive refer to words that represent the opposite characteristic or quality of being conductive. These antonyms indicate a lack of ability or suitability for allowing the passage of something, whether it be heat, electricity, or information.
The term “antonyms for conductive” can apply to various contexts, such as materials that hinder rather than facilitate the flow of energy or information. Understanding these antonyms can help in contrasting the properties of different substances or mediums based on their ability to conduct or insulate.
By exploring the antonyms for conductive, individuals can gain a better grasp of the spectrum of qualities related to conductivity and non-conductivity. Recognizing these antonyms can broaden one’s understanding of the diverse range of characteristics present in materials and their respective impact on the transfer of energy or information.
35 Antonyms for CONDUCTIVE With Sentences
Here’s a complete list of opposite for conductive. Practice and let us know if you have any questions regarding CONDUCTIVE antonyms.
| Antonym | Sentence with Conductive | Sentence with Antonym |
|---|---|---|
| Resistant | Certain materials are conductive, allowing electricity to flow. | Certain materials are resistant, preventing electricity from flowing. |
| Nonconductive | Rubber is nonconductive, so it is used for insulating purposes. | Copper is conductive, allowing electricity to pass through easily. |
| Repellent | The coating is conductive, attracting static electricity. | The coating is repellent, repelling static electricity. |
| Impervious | The substance is conductive, allowing heat to pass through. | The substance is impervious, blocking the passage of heat. |
| Deterring | The surface is conductive, encouraging the flow of current. | The surface is deterring, preventing the flow of current. |
| Stopping | Metal is conductive, allowing the transmission of energy. | Wood is stopping, hindering the transmission of energy. |
| Inhibiting | The material is conductive, facilitating the movement of heat. | The material is inhibiting, obstructing the movement of heat. |
| Insulating | The wire is conductive, enabling the flow of electricity. | The wire is insulating, blocking the flow of electricity. |
| Blocking | Graphite is conductive, facilitating the conduction of heat. | Plastic is blocking, impeding the conduction of heat. |
| Nonmagnetic | Iron is conductive, making it responsive to magnetic fields. | Glass is nonmagnetic, unaffected by magnetic fields. |
| Inert | Copper is conductive, promoting easy transfer of electricity. | Rubber is inert, not promoting the transfer of electricity. |
| Preventing | Silver is conductive, allowing efficient passage of heat. | Aluminum is preventing, obstructing the passage of heat. |
| Prohibitive | The material is conductive, aiding in the conduction of energy. | The material is prohibitive, hindering the conduction of energy. |
| Blocking | Conductive materials facilitate the transfer of electrical energy. | Non-conductive materials inhibit the transfer of electrical energy. |
| Dissipatory | Copper is conductive, promoting the flow of electrical energy. | Air is dissipatory, resulting in the dissipation of electrical energy. |
| Obstacled | Conductive wires make electricity distribution easy. | Obstacled circuits hinder electricity distribution. |
| Closing | Conductive surfaces allow for efficient heat transfer. | Non-conductive surfaces restrict heat transfer. |
| Immune | Metals are conductive, conducting electricity with ease. | Cotton is immune to conducting electricity. |
| Exhaustive | Conductive metals exhibit strong electrical conduction. | Non-conductive materials undergo minimal electrical conduction. |
| Stopping | Conductive materials enhance thermal conduction. | Stopping materials reduce the rate of thermal conduction. |
| Disruptive | Conductive substances enable the smooth flow of energy. | Disruptive substances prevent the smooth flow of energy. |
| Opposing | Metals are known for being highly conductive. | Non-metals, like plastic, are opposing to conductivity. |
| Resistive | Water is non-conductive, preventing the flow of current. | Metals are resistive, allowing the flow of current. |
| Challenging | Conductive materials make for easy transmission of electricity. | Challenging materials inhibit the transmission of electricity. |
| Blocking | Conductive objects facilitate the flow of heat. | Blocking objects impede the flow of heat. |
| Counteractive | Conductive materials encourage the conduction of electricity. | Counteractive materials restrict the conduction of electricity. |
| Enhancing | Conductive elements assist in the efficient transfer of energy. | Non-conductive elements hinder the transfer of energy. |
| Susceptible | Metals are conductive and prone to electrical conduction. | Wood is non-conductive and not susceptible to electrical conduction. |
| Clogging | Conductive channels are crucial for electricity flow. | Clogging channels impede electricity flow. |
Final Thoughts about Antonyms of CONDUCTIVE
In conclusion, when dealing with materials that are not conducive to electricity, it is important to be aware of their insulating properties. By understanding the opposite of conductive, we can identify substances that resist the flow of electrical current, such as rubber, wood, and plastic. These non-conductive materials are essential for preventing electrical accidents and maintaining safety in various settings, including electronics, construction, and industrial applications.
In contrast to conductive materials that allow electricity to pass through easily, non-conductive substances are crucial for insulation and protecting against electrical hazards. Recognizing the antonyms of conductive helps us select the right materials for specific tasks and create environments that minimize the risk of electrical mishaps. By acknowledging the importance of non-conductive materials, we can promote safety and efficiency in electrical work and everyday life.