An ideal inductor ?=114mH is connected to a source whose peak potential difference is 75V. a) If the frequency is 100Hz , what is the current at 5ms? What is the instantaneous power delivered to the inductor at this time?
An ideal inductor ?=114mH is connected to a source whose peak potential difference is 75V. a)...
An ideal inductor ?=114mH is connected to a source whose peak potential difference is 75V. a) If the frequency is 100Hz, what is the current at 5ms? What is the instantaneous power delivered to the inductor at this time? A W b) At what frequency would the peak current be 2.5A?
(1 point) An ideal inductor L 82 mH is connected to a source whose peak potential difference is 80 V. a) If the frequency is 60 Hz, what is the current at 3 ms? What is the instantaneous power delivered to the inductor at this time? -1.103 A 88.24 W b) At what frequency would the peak current be 1.7 A? 91.34 Hz
(1 point) An ideal inductor L = 116 mH is connected to a source whose peak potential difference is 85 V. a) If the frequency is 110 Hz, what is the current at 6 ms? What is the instantaneous power delivered to the inductor at this time? A W b) At what frequency would the peak current be 2.4 A? Hz
A 130μF130μF capacitor is connected to a source that operates at 90Hz90Hz with a peak potential difference of 8V8V. Find: (1 point) A 130 uF capacitor is connected to a source that operates at 90 Hz with a peak potential difference of 8 V. Find: a) the peak current: 0.588 A b) the current when the potential difference has its peak value: 0 A c) the current when the potential difference has one-half the (positive) peak value (there are two...
please help ms with the instataneous power. i asked this many times but had wrong answers each time. ULLIO LUULIOHUTOIHILI (1 point) An ideal inductor L = 118 mH is connected to a source whose peak potential difference is 60 V. a) If the frequency is 110 Hz, what is the current at 3 ms? What is the instantaneous power delivered to the inductor at this time? 0.645 b) At what frequency would the peak current be 2.3 A? 35.1853...
A 130μF130μF capacitor is connected to a source that operates at 90Hz90Hz with a peak potential difference of 8V8V. Find: d) the instantaneous power delivered to the capacitor at 4ms
When an ac source with a peak potential difference of 42V is connected to a series RLC circuit, the peak current is 4 A. The capacitor is C = 20 μF, the frequency is 60 Hz, and the current leads the potential difference by 30 ∘ degrees. Find the resitance and the inductance. R = Ω L = H
In an RLC series circuit, the source has a peak potential difference of 150V, and a frequency of 65?Hz. Take ?=15Ω, ?=180?F, ?=0.1H. c) the average power delivered by the source; W d) the power factor. (1 point) In an RLC series circuit, the source has a peak potential difference of 150 V, and a frequency of 95 Hz. Take R = 1512, C = 180 uF, L = 0.1 H. Find: a) XL and Xc; XL = 13 12...
(1 point) When an ac source with a peak potential difference of 48 V is connected to a series RLC circuit, the peak current is 5 A. The capacitor is C = 50 uF, the frequency is 120 Hz, and the current leads the potential difference by 55º. Find the resitance and the inductance. R= 12 L = Н.
(1 point) When an ac source with a peak potential difference of 60 V is connected to a series RLC circuit, the peak current is 2 A. The capacitor is C = 35 uF, the frequency is 140 Hz, and the current leads the potential difference by 50°. Find the resitance and the inductance. R= 12 L = H