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(1 point) An ideal inductor L = 116 mH is connected to a source whose peak...
(1 point) An ideal inductor L 82 mH is connected to a source whose peak potential...
(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
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?
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?
please help ms with the instataneous power. i asked this many times but had wrong answers...
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...
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...
(1 point) A 86 4F capacitor is connected to a source that operates at 70 Hz...
(1 point) A 86 4F capacitor is connected to a source that operates at 70 Hz with a peak potential difference of 18 V. Find: a) the peak current: A b) the current when the potential difference has its peak value: A c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order): A A d) the instantaneous power delivered to the capacitor at 5 ms. W
(1 point) A 108 uF capacitor is connected to a source that operates at 80 Hz...
(1 point) A 108 uF capacitor is connected to a source that operates at 80 Hz with a peak potential difference of 30 V. Find: a) the peak current: A b) the current when the potential difference has its peak value: A c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order): A A d) the instantaneous power delivered to the capacitor at 5 ms. W
i tried doing the formula of vp*ip*sin(wt)cos(wt), it does not work (1 point) A 116 uF...
i tried doing the formula of
vp*ip*sin(wt)cos(wt), it does not work
(1 point) A 116 uF capacitor is connected to a source that operates at 120 Hz with a peak potential difference of 30 V. Find: a) the peak current: 522/625pi 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 answers, list them in increasing order): -2.272 A 2.272...
(1 point) A 120 uF capacitor is connected to a source that operates at 80 Hz...
(1 point) A 120 uF capacitor is connected to a source that operates at 80 Hz with a peak potential difference of 22 V. Find: a) the peak current; A b) the current when the potential difference has its peak value; A c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order); A A Hint, there are two possible angles within 0-2 a when you try to find...
(1 point) A 126 uF capacitor is connected to a source that operates at 80 Hz...
(1 point) A 126 uF capacitor is connected to a source that operates at 80 Hz with a peak potential difference of 14 V. Find: a) the peak current; A b) the current when the potential difference has its peak value; А c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order); A A Hint, there are two possible angles within 0-2 7 when you try to find...
(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
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:
(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...
(1 point) A 86 4F capacitor is connected to a source that operates at 70 Hz with a peak potential difference of 18 V. Find: a) the peak current: A b) the current when the potential difference has its peak value: A c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order): A A d) the instantaneous power delivered to the capacitor at 5 ms. W
(1 point) A 108 uF capacitor is connected to a source that operates at 80 Hz with a peak potential difference of 30 V. Find: a) the peak current: A b) the current when the potential difference has its peak value: A c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order): A A d) the instantaneous power delivered to the capacitor at 5 ms. W
i tried doing the formula of
vp*ip*sin(wt)cos(wt), it does not work
(1 point) A 116 uF capacitor is connected to a source that operates at 120 Hz with a peak potential difference of 30 V. Find: a) the peak current: 522/625pi 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 answers, list them in increasing order): -2.272 A 2.272...
(1 point) A 120 uF capacitor is connected to a source that operates at 80 Hz with a peak potential difference of 22 V. Find: a) the peak current; A b) the current when the potential difference has its peak value; A c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order); A A Hint, there are two possible angles within 0-2 a when you try to find...
(1 point) A 126 uF capacitor is connected to a source that operates at 80 Hz with a peak potential difference of 14 V. Find: a) the peak current; A b) the current when the potential difference has its peak value; А c) the current when the potential difference has one-half the (positive) peak value (there are two answers, list them in increasing order); A A Hint, there are two possible angles within 0-2 7 when you try to find...
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