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Please help! Thank you! All the info needed to answer is in the second photo! A-2....
Need help to get going in the right direction. A-2 is the one I need help...
Need help to get going in the right direction. A-2 is the one I
need help on but the second photo is step 7. Thank you
Part III: Questions (may be answered outside of class) Questions for Section A: A-1. Explain why the field of the dipole is perpendicular to the y-axis, as observed in Section A, Step 6. Because ris the both vectovs swih canu eaving only an x componet for both gomg Some aivechion which are aays prpmdicula...
Please help! Thank you! The info need to answer is in the second photo! We were...
Please help! Thank you! The info need to answer is in the second
photo!
We were unable to transcribe this imageUse Vo = 600,000 m/s and Ex-15 N/C for Steps 6 through 8 below. 6. Select the electron e and record the exit data. cm, cm, t 200 7. Select the positron e and record the exit data. Xy= 5.211, cm, yr 12 tr=- 200 cm, ns
I worked this but would love feedback or to see if I did it correctly. Thank...
I worked this but would love feedback or to see if I did it
correctly. Thank you. The second picture is what they asked to go
by.
A-3. Derive the result in Section A. Step 8. Hint: For the field E to be zero, the vectors E, and E2 must be equal in magnitude and opposite in direction, Since both charges are negative, the fields E, and Ez point toward the corresponding charges. The only points where the fields are...
PLEASE ANSWER ALL OF THE QUESTIONS Question 1 1 pts Each of three objects has a...
PLEASE ANSWER ALL OF THE QUESTIONS
Question 1 1 pts Each of three objects has a net charge. Objects A and B repel each other. Objects B and C attract each other. Which one of the following table entries is a possible combination of the signs of the net charges on these three objects? A B с (1) + + - + (2) + + (3) (4) - (5) + - 0 1) 3) 0 (3) and (5) O (1)...
please help to solve bothe these questions and the answer should as wht you will see...
please help to solve bothe these questions and the answer
should as wht you will see in second photo for both
1.) Two charges are positioned on a grid as shown, where each division is 1 cm. The magnitude of each charge is 2 uc Determine the magnitude and direction of the force vector on EACH charge. You may express the vectors in the notation of your choice. (-1cm,1cm) (1cm,-1cm) + + + 2.) An electron with a mass of...
Electric Fields Equipment and Setup: Mathematica file- ElectricFields.nb Section A: Electric Fields Due to Two Charges...
Electric Fields Equipment and Setup: Mathematica file- ElectricFields.nb Section A: Electric Fields Due to Two Charges Computer Setup for Section A 1. The first interactive panel shows electric fields due to two point charges, Qat (-1 m,0) and Q, at (1 m,0). The controls for this panel are at the top on the left 2. The top line has two checkboxes: one to Show Axes and the other to Show Field Lines. The top line also has a slider labeled...
Please answer all questions and show all work and reasoning. Thank you!! :) 2. A spring...
Please answer all questions and show all work and reasoning.
Thank you!! :)
2. A spring is attached to a object with charge q +3.00 uC on a frictionless horizontal surface. The spring has some equilibrium length L. A charge q2 -9.00 HC is placed 4.00 cm away from the positive charge. In response, the spring stretches and reduces the distance between charges to 3.70 cm. Find the spring constant k. a. 1 1 72 b. If a charge q...
please help answer all the question and dont skip. Thank you! 1. Sketch the pole-zero diagram...
please help answer all the question and dont skip. Thank
you!
1. Sketch the pole-zero diagram for the following transfer function. Ensure you label the axes and the pole-zero locations. Assume a > b > 0. TF(s) = (s + a) s(s+b) 2. If the time constant of the lowest frequency pole in a system is 1 second, after approx- imately what period of time following turn-on could the system be considered to be in steady-state conditions? 3. The PID...
The second photo is what the Instructor gave us to start off with. You are able...
The second photo is what the Instructor gave us to start off
with. You are able to select what you want when it comes to the
“T”s but nothing to over exaggerated.
Your friend was tasked with bringing the drinks to the tailgate party, but they forgot and left the drinks in their car and it was over 90 degrees outside and the drinks are really warm. You are going to help your friend determine how long it will take...
please can you answer All of these questions? thank you Part 1. Exercise Questions (Have to...
please can you answer All of these questions?
thank you
Part 1. Exercise Questions (Have to be submitted ) State Coulomb's law and give the mathematical expression. b) Write the definition of electric field strength. What is its SI unit? (Use your own words). c) Define electric displacement vector. What is its SI unit? i.Does the electric displacement vector due to a given charge distribution depend on the properties of the medium? Does the electric field intensity due to a...
Need help to get going in the right direction. A-2 is the one I
need help on but the second photo is step 7. Thank you
Part III: Questions (may be answered outside of class) Questions for Section A: A-1. Explain why the field of the dipole is perpendicular to the y-axis, as observed in Section A, Step 6. Because ris the both vectovs swih canu eaving only an x componet for both gomg Some aivechion which are aays prpmdicula...
Please help! Thank you! The info need to answer is in the second
photo!
We were unable to transcribe this imageUse Vo = 600,000 m/s and Ex-15 N/C for Steps 6 through 8 below. 6. Select the electron e and record the exit data. cm, cm, t 200 7. Select the positron e and record the exit data. Xy= 5.211, cm, yr 12 tr=- 200 cm, ns
I worked this but would love feedback or to see if I did it
correctly. Thank you. The second picture is what they asked to go
by.
A-3. Derive the result in Section A. Step 8. Hint: For the field E to be zero, the vectors E, and E2 must be equal in magnitude and opposite in direction, Since both charges are negative, the fields E, and Ez point toward the corresponding charges. The only points where the fields are...
PLEASE ANSWER ALL OF THE QUESTIONS
Question 1 1 pts Each of three objects has a net charge. Objects A and B repel each other. Objects B and C attract each other. Which one of the following table entries is a possible combination of the signs of the net charges on these three objects? A B с (1) + + - + (2) + + (3) (4) - (5) + - 0 1) 3) 0 (3) and (5) O (1)...
please help to solve bothe these questions and the answer
should as wht you will see in second photo for both
1.) Two charges are positioned on a grid as shown, where each division is 1 cm. The magnitude of each charge is 2 uc Determine the magnitude and direction of the force vector on EACH charge. You may express the vectors in the notation of your choice. (-1cm,1cm) (1cm,-1cm) + + + 2.) An electron with a mass of...
Electric Fields Equipment and Setup: Mathematica file- ElectricFields.nb Section A: Electric Fields Due to Two Charges Computer Setup for Section A 1. The first interactive panel shows electric fields due to two point charges, Qat (-1 m,0) and Q, at (1 m,0). The controls for this panel are at the top on the left 2. The top line has two checkboxes: one to Show Axes and the other to Show Field Lines. The top line also has a slider labeled...
Please answer all questions and show all work and reasoning.
Thank you!! :)
2. A spring is attached to a object with charge q +3.00 uC on a frictionless horizontal surface. The spring has some equilibrium length L. A charge q2 -9.00 HC is placed 4.00 cm away from the positive charge. In response, the spring stretches and reduces the distance between charges to 3.70 cm. Find the spring constant k. a. 1 1 72 b. If a charge q...
please help answer all the question and dont skip. Thank
you!
1. Sketch the pole-zero diagram for the following transfer function. Ensure you label the axes and the pole-zero locations. Assume a > b > 0. TF(s) = (s + a) s(s+b) 2. If the time constant of the lowest frequency pole in a system is 1 second, after approx- imately what period of time following turn-on could the system be considered to be in steady-state conditions? 3. The PID...
The second photo is what the Instructor gave us to start off
with. You are able to select what you want when it comes to the
“T”s but nothing to over exaggerated.
Your friend was tasked with bringing the drinks to the tailgate party, but they forgot and left the drinks in their car and it was over 90 degrees outside and the drinks are really warm. You are going to help your friend determine how long it will take...
please can you answer All of these questions?
thank you
Part 1. Exercise Questions (Have to be submitted ) State Coulomb's law and give the mathematical expression. b) Write the definition of electric field strength. What is its SI unit? (Use your own words). c) Define electric displacement vector. What is its SI unit? i.Does the electric displacement vector due to a given charge distribution depend on the properties of the medium? Does the electric field intensity due to a...
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