Draw the charges (color coded), E field lines and Potential distribution on the z = 0 plane. (Positions of the charges can be taken of your choice.) (Make proper color mapping for each charges, field lines.) August 31, 2020 Read More »
Plot the heatmap of following function at 3 planes : x = 3 and z = 1. f(x,y,z) = (x^2)*(y^3)*z for -5< x,y,z < 5 Also plot the direction (3D) at which the function changes the most. (unit vectors directions) August 21, 2020 Read More »
A current of 2A flows in an infinite wire placed at z axis. Plot the magnetic field lines at z = 0 plane. If the current flows in a circular loop of radius 1mm on the z = 0 plane, plot the magnetic field lines at y = 0 plane. (Optional – Try plotting a 3D view of the above mentioned field lines.) August 21, 2020 Read More »
Calculate the magnitude of the tension T and the angle for which the eye bolt will be under a resultant downward force of 15 kN. August 17, 2020 Read More »
If the radius of the circle increases at the rate of 0.5 m per sec, how fast is the area of the ripple increases when the radius of the ripple is 20 m? August 17, 2020 Read More »
Describe what you observe in terms of amplitude and timing of the electron positions. July 30, 2020 Read More »
Explain in your own words why equipotential lines must be perpendicular to electric field lines. July 30, 2020 Read More »
investigating the relationship between wave speed, wavelength, frequency, and period of waves by utilizing a PhET simulation . July 30, 2020 Read More »
Show all equations, calculations and very clear screenshot of the graph with fit to receive full credit. July 29, 2020 Read More »