ºz hºz Problem [1] <15 points> Magnetic flux density is given as B = -2 on...
Magnetic flux density is given as B =* = 6+ Problem [1] <15 points> on a surface given by r = 510,= = 48. Calculate the total flux o passing through this surface. For Problems 2 to 4: Figure shows a resistive loop with resistance of 2 Ohms. Magnetic flux density in this region is B = (2zł + 3xý)e ^. Calculate the current on this loop at t-0.1 seconds. 2 2 2 10 Problem [2] <10 points> Calculate the...
7T Problem [1] <15 points> -ĉ on a surface given by r = 5—10,0=1,2=4 →8. Calculate the total flux Ø passing through this surface. Magnetic flux density is given as B = 92 6+92 r r
Problem [2] <10 points> Calculate the total flux o passing through the surface of this loop at t=ls. Problem [3] <10 points> Calculate the current on this loop at t =ls. Problem [4] <5 points> What is the direction of the current at t=1s ? Clockwise or counter-clockwise? I For Problems 2 to 4: Figure shows a resistive loop with resistance of 2 Ohms. Magnetic flux density in this region is B = (2zî + 3xý)e-21. Calculate the current on...
Problem 1 <15 points> Figure shows a volume that conforms to the spherical coordinate system. The volume current density on the top surface is given as J R cos 0+ in0 + pR .Calculate the total current / passing through the top surface (4,00,360°) 4,300,00) You can use an online integral calculator if you need to find the closed form solution of a complex integral. Here is one: http://www.wolframalpha.com/calculators/integral-calculator/ 0,00,00)
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of magnetic flux crossing the region x20 and y20 of a spherical surface defined byx'+y*+-2-1
Problem 2: (4 points) Given the magnetic flux density B- B,(a, +a). Find the absolute value of magnetic flux crossing the region x20 and y20 of a spherical surface defined byx'+y*+-2-1
Given z = 2 y2 – 3xy , find the slope of the surface at (1,1,-1) in the direction of ū =< 2,3>
15. Homework: A body is emitting radiation with the following idealized spectrum of monochromatic flux density: i<0.35um F = 0 0.35 um <<0.50 um F, = 1.0Wm-um- 0.50 um<<0.70 um F, = 0.5Wm-um-? 0.70 um <i<1.00 um F,-0.2Wm-um-1 2 >1.00 um F, = 0 Calculate the flux density of the radiation.
Please answer question 1, a-d
Bo cos(wt) 2 (T). o points) A time-varying magnetic flux density in space is given by B A closed rectangle loop with sides a and b is centered at the origin and lies in the r-y plane. Solve steps a)-e) to find the induced emf a) (1o points) Draw a sketch in Cartesian coordinates. Show the loop and magnetic flux density b) (5 points) List the appropriate Maxwell equation to solve this problem c) (5...
Consider the random variable X whose probability density function is given by k/x3 if x>r fx(x) = otherwise Suppose that r=5.2. Find the value of k that makes fx(x) a valid probability density function.
Let r(t) = <cos(5t), sin(5t), v7t>. (a) (7 points) Find |r'(t)|| (b) (7 points) Find and simplify T(t), the unit tangent vector. Upload Choose a File