To monitor the breathing of a hospital patient, a thin belt is girded around the patient's...
To monitor the breathing of a hospital patient, a thin belt is
girded around the patient's chest. The belt is a 200-turn coil.
When the patient inhales, the area encircled by the coil increases
by 49.0 cm2. The magnitude of the Earth's magnetic field
is 50.0 µT and makes an angle of 28.0° with the plane of the coil.
Assuming a patient takes 1.77 s to inhale, find the magnitude of
the average induced emf in the coil during this time
interval.
1 µV
Homework Answers
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To monitor the breathing of a hospital patient, a thin belt is
girded around the patient's...
To monitor the breathing of a hospital patient, a thin belt is girded around the patient's...
To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest as in the figure below. The belt is a 240-turn coil. When the patient inhales, the area encircled by the coil increases by 38.0 cm^2. The magnitude of Earth's magnetic field is 50.0 muT and makes an angle of 25.0 degree with the plane of the coil. Assuming a patient takes 1.80 s to inhale, find the magnitude of the average induced emf...
10. To monitor the breathing of a hospital patient, a thin belt is girded around the...
10. To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest as in the figure below. The belt is a 180-turn coil. When the patient inhales, the area encircled by the coil increases by 41.0 cm2. The magnitude of Earth's magnetic field is 50.0 μT and makes an angle of 26.5° with the plane of the coil. Assuming a patient takes 1.60 s to inhale, find the magnitude of the average induced emf...
To monitor the breathing of a hospital patient, a thin belt is girded around the patient's...
To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest. The belt is a 200-turn coil. When the patient inhales, the area encircled by the coil increases by 36.0 cm^2. The magnitude of the Earth's magnetic field is 50.0 mu T and makes an angle of 28.0 degree with the plane of the coil. Assuming a patient takes 1.84 s to inhale, find the magnitude of the average induced emf in the coil...
O-1 points SerCP11 202P 021 To monitor the breathing of a hospital patient, a thin belt...
O-1 points SerCP11 202P 021 To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest as in the figure below. The beit is a 160-turn coll. When the patent inhales, the area My Noes Ask Your Teacher O encircled by the coll increases by 37.0 cm. The magnitude of Earth's magnetic fleld is 50.0 uT and makes an angle of 27.5 with the plane of the col. Assuming a patient takes 2.00s to...
2 point Suppose the apnea belt in an apnea monitor has 200 tums and the area...
2 point Suppose the apnea belt in an apnea monitor has 200 tums and the area encircled by it increases by 30.0 cm- as the patient inhales. The magnitude of the Earth's magnetic field is 50.0 T and makes an angle of 25 0 with the plane of the coil. Assuming a patient takes 1.20 s to inhale, find the magnitude of the average induced emf (in V) in the coil during that time. Express answer up to ONE decimal...
An apnea monitor for adults consists of a flexible coil that wraps around the chest as...
An apnea monitor for adults consists of a flexible coil that wraps around the chest as shown in (Figure 1). When the patient inhales, the chest expands, as does the coil. Earth's B⃗ field of 5.0 × 10−5 T passes through the coil at a 53∘ angle relative to a line perpendicular to the coil. Determine the average induced emf in such a coil during one inhalation if the 300-turn coil area increases by 42 cm2 during 2.0 s.
An apnea monitor for adults consists of a flexible coil that wraps around the chest, When...
An apnea monitor for adults consists of a flexible coil that wraps around the chest, When the patient inhales, the chest expands, as does the coil. Earth's B⃗ B→ field of 5.0 ×× 10^-5. T passes through the coil at a 53∘53∘ angle relative to a line perpendicular to the coil. Determine the average induced emf in such a coil during one inhalation if the 310-turn coil area increases by 42
Mindy, a medical device engineer, is designing an apparatus to monitor the breathing of a patient....
Mindy, a medical device engineer, is designing an apparatus to monitor the breathing of a patient. The apparatus consists of a stretchable loop of conductive material wrapped in a small band around the patient's chest. A constant uniform external magnetic field is produced by a nearby solenoid. As the patient inhales, his chest expands, stretching the chest band. The resulting increase in the area of the loop causes an emf to be induced in the loop. By measuring the induced...
Both please :) 20 Mindy, a medical device engineer, is designing an apparatus to monitor the...
Both please :)
20 Mindy, a medical device engineer, is designing an apparatus to monitor the breathing of a patient. The apparatus consists of a stretchable loop of conductive material wrapped in a small band around the patient's chest. A constant uniform external magnetic field is produced by a nearby solenoid. As the patient inhales, his chest expands, stretching the chest band. The resulting increase in the area of the loop causes an emf to be induced in the loop....
a. A 117‑turn circular coil of radius 2.63 cm and negligible resistance is immersed in a...
a. A 117‑turn circular coil of radius 2.63 cm and negligible resistance is immersed in a uniform magnetic field that is perpendicular to the plane of the coil. The coil is connected to a 16.7 Ω16.7 Ω resistor to create a closed circuit. During a time interval of 0.125 s,, the magnetic field strength decreases uniformly from 0.447 T to zero. Find the energy, in millijoules, that is dissipated in the resistor during this time interval. b. Mindy, a medical device...
To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest as in the figure below. The belt is a 240-turn coil. When the patient inhales, the area encircled by the coil increases by 38.0 cm^2. The magnitude of Earth's magnetic field is 50.0 muT and makes an angle of 25.0 degree with the plane of the coil. Assuming a patient takes 1.80 s to inhale, find the magnitude of the average induced emf...
To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest. The belt is a 200-turn coil. When the patient inhales, the area encircled by the coil increases by 36.0 cm^2. The magnitude of the Earth's magnetic field is 50.0 mu T and makes an angle of 28.0 degree with the plane of the coil. Assuming a patient takes 1.84 s to inhale, find the magnitude of the average induced emf in the coil...
O-1 points SerCP11 202P 021 To monitor the breathing of a hospital patient, a thin belt is girded around the patient's chest as in the figure below. The beit is a 160-turn coll. When the patent inhales, the area My Noes Ask Your Teacher O encircled by the coll increases by 37.0 cm. The magnitude of Earth's magnetic fleld is 50.0 uT and makes an angle of 27.5 with the plane of the col. Assuming a patient takes 2.00s to...
2 point Suppose the apnea belt in an apnea monitor has 200 tums and the area encircled by it increases by 30.0 cm- as the patient inhales. The magnitude of the Earth's magnetic field is 50.0 T and makes an angle of 25 0 with the plane of the coil. Assuming a patient takes 1.20 s to inhale, find the magnitude of the average induced emf (in V) in the coil during that time. Express answer up to ONE decimal...
Mindy, a medical device engineer, is designing an apparatus to monitor the breathing of a patient. The apparatus consists of a stretchable loop of conductive material wrapped in a small band around the patient's chest. A constant uniform external magnetic field is produced by a nearby solenoid. As the patient inhales, his chest expands, stretching the chest band. The resulting increase in the area of the loop causes an emf to be induced in the loop. By measuring the induced...
Both please :)
20 Mindy, a medical device engineer, is designing an apparatus to monitor the breathing of a patient. The apparatus consists of a stretchable loop of conductive material wrapped in a small band around the patient's chest. A constant uniform external magnetic field is produced by a nearby solenoid. As the patient inhales, his chest expands, stretching the chest band. The resulting increase in the area of the loop causes an emf to be induced in the loop....
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