alpha___ 2025-03-25

Temperature coefficient (α,C,G,R,T)


C₀ =			Capacitance☺
C₁ =			Capacitance☺ ←α,C,T
T₀ =			Temperature☺
T₁ =			Temperature☺ ←α,C,T
☺
α =			Temperature coefficient☺ $α = \frac{\frac{C_{1}}{C_{0}} - 1}{T_{1} - T_{0}}$


α =	1/K		Temperature coefficient☺ ←C,T
			Temperature coefficient☺ ←C,T
C₀ =			Capacitance☺
T₀ =			Temperature☺
T₁ =			Temperature☺ ←α,C,T
☺
C₁ =			Capacitance☺ $C_{1} = C_{0} \cdot (1 + α \cdot (T_{1} - T_{0}))$


α =	1/K		Temperature coefficient☺ ←C,T
			Temperature coefficient☺ ←C,T
C₀ =			Capacitance☺
C₁ =			Capacitance☺ ←α,C,T
T₀ =			Temperature☺
☺ ☺
T₁ =			Temperature☺ $T_{1} = T_{0} + \frac{\frac{C_{1}}{C_{0}} - 1}{α}$


	G₀ =			Conductance☺
	R₀ =			Resistance☺
	G₁ =			Conductance☺ ←α,G,R,T
	R₁ =			Resistance☺ ←α,G,R,T
T₀ =				Temperature☺
T₁ =				Temperature☺ ←α,G,R,T
☺
α =				Temperature coefficient☺
				$α = \frac{\frac{R_{1}}{R_{0}} - 1}{T_{1} - T_{0}}$


α =		1/K		Temperature coefficient☺ ←G,R,T

	G₀ =			Conductance☺
	R₀ =			Resistance☺
T₀ =				Temperature☺
T₁ =				Temperature☺ ←α,G,R,T
☺
G₁ =				Conductance☺
				$G_{1} = \frac{1}{R_{0} \cdot (1 + α \cdot (T_{1} - T_{0}))}$
R₁ =				Resistance☺
				$R_{1} = R_{0} \cdot (1 + α \cdot (T_{1} - T_{0}))$


α =		1/K		Temperature coefficient☺ ←G,R,T
				Temperature coefficient☺ ←G,R,T
	G₀ =			Conductance☺
	R₀ =			Resistance☺
	G₁ =			Conductance☺ ←α,G,R,T
	R₁ =			Resistance☺ ←α,G,R,T
T₀ =				Temperature☺
☺ ☺
T₁ =				Temperature☺
				$T_{1} = T_{0} + \frac{\frac{R_{1}}{R_{0}} - 1}{α}$

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Verzió: 2025-03-25 ( 2012-03-19 .. 2025-03-10 18:00:01 UTC )
gg630504

Gábor, operator of the HG9IEG amateur radio station.