(1)由图(b)可知,当温度为$20^{\circ}C$时,热敏电阻$R_t = 4k\Omega=4000\Omega。$此时电路电流$I = 2mA=0.002A,$电源电压$U = 9V。$根据串联电路总电阻$R_{总}=R_t + R_g,$由$I=\frac{U}{R_{总}}$可得$R_{总}=\frac{U}{I}=\frac{9V}{0.002A} = 4500\Omega,$则$R_g=R_{总}-R_t=4500\Omega - 4000\Omega=500\Omega。$
(2)当电流$I'=6mA = 0.006A$时,总电阻$R_{总}'=\frac{U}{I'}=\frac{9V}{0.006A}=1500\Omega,$热敏电阻$R_t'=R_{总}'-R_g=1500\Omega - 500\Omega=1000\Omega。$由图(b)可知,$R_t = 1k\Omega$时对应的温度为$120^{\circ}C。$
(1)$500\Omega;$(2)$1000\Omega,$$120^{\circ}C$
