Please note that you only have 5 attempts to pass this Quiz.
0 of 10 Questions completed
Questions:
You have already completed the quiz before. Hence you can not start it again.
Quiz is loading...
You must sign in or sign up to start the quiz.
You must first complete the following:
0 of 10 Questions answered correctly
Your time:
Time has elapsed
Unfortunately, you did not pass the quiz.
Don't be discouraged - Go through the course material including the lecture videos, handout slides, and simulation examples to prepare and try again.
Congratulations, you have passed the quiz!
You still have room for improvement - Review the slides and simulation examples again to identify the concepts that you may have missed.
Congratulations, you have passed the quiz!
You scored better than average, but if you are still unsure about a particular topic, try starting a discussion on the Ansys Learning Forum to discuss your questions with peers around the world.
Congratulations, you have passed the quiz!
You did great - Check out other courses to further your knowledge. Also, visit the Ansys Learning Forum and participate in discussions on this subject to help your peers and deepen your own knowledge.
Congratulations you have passed the quiz!
You have excelled on this topic - Check out other courses and see if you can ace them too. Also, visit the Ansys Learning Forum to help your peers on this topic. With your knowledge, you can make a real difference.
True or False: When an electric field intersects with a medium, the tangential components of the field inside the medium are the same as the tangential components outside of the medium
True or False: When an electric field intersects with a medium, the normal components of the electric displacement field inside of the medium and of the electric displacement field outside of the medium are equal
True or False: Capacitance can only appear in a body or collection of bodies when there is a potential voltage difference
True or False: Most electrostatic equations in free space can be used for electric fields in materials if the permittivity of free space is scaled by the relative permittivity and permeability of the material
True or False: The equation for the energy stored in a capacitive system is defined as a relationship between the three quantities of charge, capacitance, and voltage
Given an electric field in region 1 with $\epsilon_r = 4$ and characterized as $ \overline{E}_1 = \left( 12x^{2}\hat{a}_x + 5x\hat{a}_y + y^2z^2\hat{a}_z \right) e^{-jkz}$, find the electric field in the second region given the second region is made of a material with $\epsilon_r = 1.6$ and with $\rho_s = \left( x+2y+3z \right)$
Given an electric field in region 1 with $\epsilon_r = 7$ and characterized as $ \overline{D}_1 = \left( 14\hat{a}_x + 7z\hat{a}_y + x^2\hat{a}_z \right) e^{-jkz}$, find the electric field in the second region given that the second region is made of a material with $\epsilon_r = 3.5$ and with $\rho_s = 2x^2 + 5$
Find the electrostatic energy density in a material characterized with $\epsilon_r = 12$ and which has an electric field of $ \overline{E} = 10x^2y^2\hat{a}_x + 5xyz\hat{a}_y - 2y^3z^3\hat{a}_z$ at point $\left(5,1,-6\right)$
Given a rectangular parallel plate capacitor characterized with $w = 47mm$, $l = 24mm$, and $d = 12mm$, find the effective permittivity of the material between the plates given a capacitance of $47pF$
Find the capacitance of a parallel plate capacitor that has rectangular plates with a width of $w = 20mm$, a length of $l = 37mm$, a distance between plates of $d = 4mm$, and with a material between the plates characterized as $\epsilon_r = 9.91$