A 750 Hz, 20 V source is connected to as...

A `750 Hz, 20 V` source is connected to as resistance of `100 Omega` an inductance of `0.1803 H` and a capacitance of `10 muF` all in sereis.Calculate the time in which the resistance (thermalcapacity `2J//.^(@)C`) wil get heated by `10^(@)C`.

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To solve the problem step by step, we will follow the outlined approach in the video transcript. ### Step 1: Calculate the total heat energy required to raise the temperature of the resistor. The thermal capacity of the resistor is given as \(2 \, \text{J/°C}\) and we want to raise the temperature by \(10 \, \text{°C}\). \[ \text{Total Heat Energy} (Q) = \text{Thermal Capacity} \times \Delta T = 2 \, \text{J/°C} \times 10 \, \text{°C} = 20 \, \text{J} ...

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