The magnetic flux through a metal ring varies with time t according to Pg = 3(at3 – bt²)T · m², with a = 3.00 s-3 and b = 9.00 s-2 . The resistance of the ring is 3.00 N. Determine the maximum current induced in the ring during the interval from t = 0 to t = 2.00 s. Give %3D | your answer in A.
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- The magnetic flux through a metal ring varies with time t according to P3 = 5(at3 – bt?)T·m², with a = 1.00 s-3 and b = 6.00 s-2. The resistance of the ring is 5.00 N. Determine the maximum current induced in the ring during the interval from t = 0 to t = 2.00 s. Give your answer in A.A circular loop of resistance R=2.15 N and area A=0.08 m- is placed in a uniform magnetic field. From t-0 on, the field start varying with time according to B(t)=t+20t+5, where B is in mT and t in seconds. Find the time t (in s) at which the current passing by the loop is 7.6 mA. xxxxItem 16 A circular loop of wire with radius 0.0480 m and resistance 0.169 2 is in a region of spatially uniform magnetic field, as shown in the following figure (Eigure 1). The magnetic field is directed out of the plane of the figure. The magnetic field has an initial value of 7.72 T and is decreasing at a rate of -0.653 T/s. Figure B 1 of 1 Part A is the induced current in the loop clockwise or counterclockwise? clockwise counterclockwise Submit Part B What is the rate at which electrical energy is being dissipated by the resistance of the loop? Express your answer with the appropriate units. μÀ Request Answer P. Value Submit Provide Feedback flequest Answer Units ?
- A conducting ring of electrical resistance R = 4.0 [2] and radius r = 2.0 [m] is inside an external magnetic field B=6t (T), where t is measured in seconds and whose direction is towards the inside of the page as shown in the figure. What is the magnitude of the induced current for t>0? Express your answer in Amperes and with 2 decimal places of precision. X X X X X X X X X ххххх X X ringSuppose a uniform magnetic field is perpendicular to the x 11-in. page of your homework and a rectangular metal loop lies on the page. The loop's sides line up with the edges of the page. The magnetic field is changing with time as described by B = 4.42 x 10-3 t, where B is in teslas and t is in seconds. (a) Is the magnetic field increasing or decreasing? O increasing O decreasing (b).Find.the.magnitude of the emf induced in the loop. 4.7e-4 Enter a number. differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. VThe component of the external magnetic field along the central axis of a 33 turn circular coil of radius 27.0 cm decreases from 1.90 T to 0.400 T in 2.90 s. If the resistance of the coil is R = 6.00 52, what is the magnitude of the induced current in the coil? magnitude: What is the direction of the current if the axial component of the field points away from the viewer? counter-clockwise O clockwise
- Consider two thin wires of length w with a uniform current I as shown in figure below. Determine the magnetic flux density B(F) at the point P(w,w,0). Show the direction of the magnetic flux density at the given point. W I Z W P(w,w,0) yThe magnetic flux through a metal ring varies with time t according to PB = 6(at³ – bt²)T · m², with a = 1.00 s¬³ and b = 9.00 s-2 The resistance of the ring is 6.00 Q. Determine the maximum current induced in the ring during the interval from t = 0 to t = 2.00 s. Give your answer in A. Bir metal halkadan geçen manyetik akı t zamanı ile PB = 6(at³ – bt²)T · m² denklemine göre değişmektedir. Burada, a = 1,00 s-3 ve b = 9,00 s-2 olarak verilmişlerdir. Halkanın direnci 6,00 N ise t = 0 ile t = 2.00 s arasında geçen en yüksek akım değeri A cinsinden nedir.B4
- The coil in the picture below is rotating with a constant angular speed of 320 rad/s in a uniform magnetic field of 0.200 T. The diameter of the coil is 10 cm. Calculate the magnitude (ie., a positive value) of the maximum value of the induced current, in mA, if the resistance of the coil is 20 Q. B.A cube of edge length = 5.00 cm is positioned as shown in the figure below. A uniform magnetic field given by B = (4.9 î+ 4.0 ĵ + 3.0 k) T exists throughout the region. y l B (a) Calculate the magnetic flux through the shaded face. mWb (b) What is the total flux through the six faces? mWbB4