Given that B= 6x ax - 9y ay + 3z az Wb/m^2 , find the total force experienced by the rectangular loop (in the z=0 plane) shown in the figure
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Q: A solenoid has a length = 11.34 cm, a radius a = 1.85 cm, and 1627 turns. The solenoid has a net…
A: Given the data in the question(Length) = 11.34 cm = 0.1134 mradius (a) = 1.85 cm = 0.0185 mturns (N)…
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- Two coplanar and concentric circular loops of wire carry currents of I, = 5.90 A and I, = 2.30 A in opposite directions as in the figure below. Let r, = 12.0 cm and r, = 8.60 cm. (Assume the positive direction along the axis perpendicular to the faces of the loops is out of the screen (towards you) and assume the positive vertical direction is toward the top of the screen.) (a) What is the magnitude of the net magnetic field (in µT) at the center of the two loops? PT (b) What is the direction of the net magnetic field at the center of the two loops? out of the screen O into the screen O toward the top of the screen O toward the bottom of the screen (c) Let r, remain fixed at 12.0 cm and let r, be a variable. Determine the value ofr, (in cm) such that the net field at the center of the loops is zero. cmTwo coplanar and concentric circular loops of wire carry currents of I1 = 5.60 A and I2 = 2.60 A in opposite directions as in the figure below. Let r1 = 12.0 cm and r2 = 8.50 cm. (Assume the positive direction along the axis perpendicular to the faces of the loops is out of the screen (towards you) and assume the positive vertical direction is toward the top of the screen.) (a)What is the magnitude of the net magnetic field (in µT) at the center of the two loops? µT (b)What is the direction of the net magnetic field at the center of the two loops? out of the screen into the screen toward the top of the screen toward the bottom of the screen (c)Let r1 remain fixed at 12.0 cm and let r2 be a variable. Determine the value of r2 (in cm) such that the net field at the center of the loops is zero.Determine v1, and V2 in the ladder network in Figure. 6Ω 4Ω 28 V 12 2 15 N 10 Ω ½{ 13 N Seçtiğiniz cevabın işaretlendiğini görene kadar bekleyiniz. Soruyu boş bırakmak isterseniz işaretlediğiniz seçeneğe tekrar tıklayınız. 10,00 Puan A V1= 12V, V2= 3V V1= 12V, V2= 3.12V C V1= 12V, V2= 3.6V V1= 16V, V2= 3V ww
- A long, straight wire carrying a current of 3.13 A moves with a constant speed v to the right. A 5-turn circular coil of diameter 12.5 cm, and resistance of 3.25 µ, lies stationary in the same plane as the straight wire. At some initial time the wire is at a distance d 8.35 cm from the center of the coil. 5.10 s later, the wire is at a distance 2d from the center of the coil. What is the magnitude and direction of the average induced current in the coil? mA magnitude direction ---Select--- O initial situation 2d final situationA long straight wire carrying a current of 2.40 A moves with a constant speed v to the right. A 5 turn circular coil of diameter 12.5 cm, and resistance of 3.25 µΩ, lies stationary in the same plane as the straight wire. At some initial time the wire is to the left of the coil at a distance d = 3.00 cm from its center. 5.00 s later, the wire has moved to the right of the coil and is at a distance d from the center of the coil. What is the magnitude and direction of the induced current in the coil? magnitude: mAO Equilibrium Worksheet 2 PDF.pdf - Google Chrome i learnonline.gmit.ie/pluginfile.php/359400/mod_resource/content/7/Equilibrium%20Worksheet%202%20PDF.pdf Equilibrium Worksheet 2 PDF.pdf 2 / 2 | 200% + | 1 Q5 Determine the tension developed in each wire used to support the 50kg chandelier. 30 45 30 14:40 O Type here to search 日 W 10°C G 4) ENG 01/03/2022 ...
- A square loop has a charge density λ = |x| at y = ±a and [x]An experimental apparatus has two parallel horizontal metal rails separated by 1.0 m. A 5.0-Ω resistor is connected from the left end of one rail to the left end of the other. A metal axle with metal wheels is pulled toward the right along the rails at a speed of 35 m/s. Earth's uniform 5.0×10^−5 T field B→ points down at an angle of 53∘ below the horizontal. A) Determine the average induced emf. (Ein) B) Determine the induced current. (Iin) C) Determine the power dissipated through the resistor. (PR)The figure shows a 40-turn loop with dimensions I = 6.5 m and w = 1.8 m carrying a current I = 7.7 A immersed in a uniform 0.62-T magnetic field in the +z-direction. Calculate the work required by an external force to rotate the loop from = 50° to 31°. X W B TRO I L