An AC voltage source is connected to a resistor R = 1.90 102 Ω. The output from an AC voltage source is given by the expression V = (3.00 102 V) sin 2πft.
(a) What is the rms voltage across the resistor?
____ V
(b) What is the rms current flowing through the resistor?
____ A
An AC voltage source is connected to a resistor R = 1.90 102 Ω. The output...
When an AC source is connected across a 22.0 Ω resistor, the output voltage is given by Δv = (140 V)sin(70πt). Determine the following quantities. (a) maximum voltage ____ V (b) rms voltage ____ V (c) rms current ____ A (d) peak current ____ A (e) Find the current when t = 0.0045 s. ____ A
When an AC source is connected across a 23.0 12 resistor, the output voltage is given by AV = (160 V)sin(70st). Determine the following quantities. (a) peak voltage (b) rms voltage v (c) rms current (d) peak current (e) Find the current when t = 0.0045 s.
A resistor with a 100 Ω is connected to an AC source with a maximum voltage of 10V. The RMS current and the average power of this resistor are?
3. The instantaneous voltage of an AC source is given by Av= (2.00 × 102 V) sin 2nfi. This source is connected to a 1.00 x 102 Ω resistor. Find the Vrms and Irms current in the resistor
The output voltage of an AC generator is given by Δv = (1.01 ✕ 102 V)sin(39πt). The generator is connected across a 0.500 H inductor. Find the following. (a) frequency of the generator Hz (b) rms voltage across the inductor V (c) inductive reactance Ω (d) rms current in the inductor A (e) maximum current in the inductor A (f) average power delivered to the inductor W (g) Find an expression for the instantaneous current. (Use the following as necessary:...
An AC voltage source has an output of ∆V = 172.0 sin(408t) Volts. 1. Calculate the RMS voltage. 2. What is the frequency of the source? 3. Calculate the voltage at time t = 1/104 s. 4. Calculate the maximum current in the circuit when the generator is connected to an R = 56.0 Ω resistor.
A 200-Ω resistor is connected across an ac voltage source V = (150 V) sin [2π(60 Hz)t]. What is the average power delivered to this circuit (in Watt)?
An AC voltage source and a resistor are connected in series to make up a simple AC circuit. If the source voltage is flowing in this circuit be 62.0% of the peak current? iven by V-v sin 2nn) and the source fr is 194Hz, at what time t will
A resistor (R = 9.00 ✕ 102 Ω), a capacitor (C = 0.250 μF), and an inductor (L = 1.20 H) are connected in series across a 2.40 ✕ 102-Hz AC source for which ΔVmax = 1.45 ✕ 102 V. (a) Calculate the impedance of the circuit. (kΩ) (b) Calculate the maximum current delivered by the source. (A) (c) Calculate the phase angle between the current and voltage. (° )
5. A resistor and capacitor are connected in series with an applied AC voltage source. There is no inductor. Separate voltmeter readings across the resistor and capacitor give values of 50 V and 75 V (rms) respectively. What is the (rms) voltage of the source? (5 points)