Here is problem one for reference. Please solve problem 2 and NOT 1.
Here is problem one for reference. Please solve problem 2 and NOT 1. 2) Calculate the...
Problem 3) An electron moving in a circle at a constant speed v has coordinates a(t) a cosut and y(t)- a sin ut, where a= 1 m. and u-wa=0.77c. The field point is located on the x-axis at position r=(2a,0,0). Take the speed of light to be c 3x 108 m/s. a) what are the coordinates of the electron at time t = 6.8 ns? b) If the time in part (a) represents the retarded time tr, what is the...
Chapter 2, Practice Problem 2/015 A particle starts from rest at x = -3.7 m and moves along the x-axis with the velocity history shown. Plot the corresponding acceleration and the displacement histories for the 4.4 seconds. Find the time t when the particle crosses the origin. After you have the plots, answer the questions. , m/s 5.1 4,4 2.2 1,7 Questions At t 0.73 s m/s2 m/s, a At t 1.41 5, m/s, a m/s2 m v At t...
Question 5 [12 10 22 marks] (a) In a given inertial reference frame, S', consider a region of space where there is a uniform and constant electric field, E', and zero magnetic field, i.e. B' = 0. The frame S' moves with respect to an observer, in another frame S, with velocity v. Write an expression for the electric field, E, observed in S? Clearly explain any notation (i) and new quantities introduced Write an expression for the magnetic field,...
Problem 2: The following data of the velocity of a body is given as a function of time 24 33 Time (sec) Velocity (m/s) 17 28 0 21 26 223 a. Calculate the velocity in m/s at t= 22 sec using a quadratic polynomial interpolation through linear systems of equations. b. Set up the 9x9 matrix to solve all coefficients through quadratic spline interpolation (the matrix itself is the answer we're looking for, you do not need to solve it)
a V 43.3 m/s2 s. This answer agrees with the one obtained above using Equation [1]. Guided Problem A race car starting from rest accelerates at a constant rate of 5.20 m/s?. After how much time has the car traveled 28.5 m along the x-axis? Part 1 of 6 Identify the known and unknown quantities. The car starts from rest so its initial velocity is vo 0. During the time interval of interest, the car travels 28.5 m at constant...
Problem 3. 10 points total With reference to the circuit shown in the following figure, calculate the emf Vab() (8 points) and the current i Q, v = 65 ar miles/hr with x = 0 at t = 0 and B = 2 x e-50x azT. Note: 1 hr 3600 s 1 mile 1.609 km 1609.34 m. b(t) (2 points) if distance ab 4 cm, R 50 8
Please be the one to solve this problem no one else can the answers above are not the right answers. A pulley of moment of inertia 2.5 kg .m2 is mounted on a wall as shown in the following figure. Light strings are wrapped around two circumferences of the pulley and weights are attached. Assume the following data: 11 = 49 cm, 12 = 20 cm, m = 1.0 kg, and m2 = 2.5 kg. (a) What is the angular...
please show work in excel Step 2: On a separate Excel worksheet, solve the following problem from scratch using the approach outlined in the previous steps. Don't not waste time trying to reduce this expression or rearranging this equation for the variable of interest (T). The acceleration of an object undergoing simple harmonic motion can be described by the equation 27T cos a(t) =-A T 2T where a(t) is the acceleration of the object over time (in m/s2), A is...
please solve this water treatment problem FINAL PROBLEM 1-TRACER TESTING The following data were obtained from a tracer testing of an existing chlorine contact tank. Time, min Tracer Time, Tracer min l ime, minTracer Concentration Concentration Concentration 0.0 0.0 0.1 2.1 10.0 12.0 10.2 70 80 90 100 110 120 130 8.0 6.0 4.3 3.0 2.1 1.5 140 150 160 170 0.5 10 20 30 40 50 60 0.0 0.0 Using the data determine: a) the mean hydraulic retention time...
Please solve all parts of this one question CORRECTLY. SHOWING ALL THE WORK! Thank you. Course: ElectroMagnetic Fields and Transmission Lines HA3-Part 1-Problern #4 Step Excitation For the eircuit shown, calculate the following. R-400 Vg-16U(t Zo 120 (2) &1-9 L-360(Ω) z=0 z = 1-300(m) 「(0) = and 「(A) Draw Voltage and Current Bounce Diagrams for (0 Sts4.5 T). Plot V(0,t) and V(I, t) vs t for (0sts4.5 T). V(0,t) V(It) t (us) 4.5 T). Plot 1(0,t) and 1(1, t) vs...