![SOLVED: TABLE 26.1 Approximate Dielectric Constants and Dielectric Strengths of Various Materials at Room Temperature Dielectric Dielectric Strength" Material Constant K (106 V /m) Air (dry) 1.000 59 Bakelite 4.9 24 Fused SOLVED: TABLE 26.1 Approximate Dielectric Constants and Dielectric Strengths of Various Materials at Room Temperature Dielectric Dielectric Strength" Material Constant K (106 V /m) Air (dry) 1.000 59 Bakelite 4.9 24 Fused](https://cdn.numerade.com/ask_images/8ce251ea081b47e99efb8cf690c984be.jpg)
SOLVED: TABLE 26.1 Approximate Dielectric Constants and Dielectric Strengths of Various Materials at Room Temperature Dielectric Dielectric Strength" Material Constant K (106 V /m) Air (dry) 1.000 59 Bakelite 4.9 24 Fused
![Table 3 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar Table 3 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/3c9216e74ae9c7b4a12e3af5ca90ae8af128e6ea/5-Table3-1.png)
Table 3 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar
Thickness-Dependent DC Electrical Breakdown of Polyimide Modulated by Charge Transport and Molecular Displacement
![Table 4 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar Table 4 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/3c9216e74ae9c7b4a12e3af5ca90ae8af128e6ea/5-Table4-1.png)
Table 4 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar
![Table 2 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar Table 2 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/3c9216e74ae9c7b4a12e3af5ca90ae8af128e6ea/5-Table2-1.png)
Table 2 from A method for breakdown voltage prediction of short air gaps with atypical electrodes | Semantic Scholar
Method of Controlling Corona Effects and Breakdown Voltage of Small Air Gaps Stressed by Impulse Voltages
![Table III from Insulating liquids breakdown voltage determination: Test method efficiency | Semantic Scholar Table III from Insulating liquids breakdown voltage determination: Test method efficiency | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/d01c4856b351d0438d25c31915e474bc37e620b2/3-TableIII-1.png)
Table III from Insulating liquids breakdown voltage determination: Test method efficiency | Semantic Scholar
![Table II from Corona onset and breakdown voltage prediction of rod-plane air gaps based on SVM algorithm | Semantic Scholar Table II from Corona onset and breakdown voltage prediction of rod-plane air gaps based on SVM algorithm | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/6e885cfa76c8af0db673b4b8d69fc85824b36450/3-TableII-1.png)