DandelionTheory Posted October 6, 2020 Posted October 6, 2020 (edited) So 2 like charges are traveling along an electric field, the same direction, with force FExx spaced next to each other. If the electrostatic force between them is greater than FExx, the resulting force on each charge would be greater than 45° from FExx right? I'm looking to use the electrostatic force between charges to "bounce off the surface" of a cone. (picture) FE1 and FE2 are the forces between respective charges and the electric field, while FC Represents the electrostatic force between both charges. Edited October 6, 2020 by DandelionTheory
DandelionTheory Posted October 6, 2020 Author Posted October 6, 2020 using the coulomb force as thrust is hard...
swansont Posted October 6, 2020 Posted October 6, 2020 You haven’t shown the electric field. I assume it’s in the -x direction. The force on a charge will be the vector sum of FE and FC 6 hours ago, DandelionTheory said: using the coulomb force as thrust is hard... Ion drives do exist already
DandelionTheory Posted October 7, 2020 Author Posted October 7, 2020 (edited) 17 hours ago, swansont said: Ion drives do exist already Ion drives do not harvest beam drift for additional thrust as a primary design point. If FC is larger than FE the side of the cone will be a shorter distance from the charge than the center. Edited October 7, 2020 by DandelionTheory
DandelionTheory Posted October 7, 2020 Author Posted October 7, 2020 (edited) The plus and minus indicate electric field direction. If FE was alternating, so the charge wiggles in the Y-+ direction, they would contact the angled sides of the cone with each cycle due to FC. Edited October 7, 2020 by DandelionTheory
swansont Posted October 7, 2020 Posted October 7, 2020 5 hours ago, DandelionTheory said: Ion drives do not harvest beam drift for additional thrust as a primary design point. Perhaps no, but then, I made no claims about that. 5 hours ago, DandelionTheory said: If FC is larger than FE the side of the cone will be a shorter distance from the charge than the center. Can you show this mathematically? It's not obvious why this would be true. FE has no dependence on distance, and FC does not depend on the distance to the side of the cone. Seems to me if the distance to the cone could be made arbitrarily large and have no effect on the forces. 3 hours ago, DandelionTheory said: The plus and minus indicate electric field direction. Plus being the direction a negative charge would travel?
DandelionTheory Posted October 7, 2020 Author Posted October 7, 2020 (edited) 5 hours ago, swansont said: Can you show this mathematically? I can do my best, although i do need help. Vectors are shown in the Magnitude(x, y) form. if the force on a charge in an electric field is: FE = qE where E is the electric field vector and q is the charge I messed up earlier and drew the picture with the electrodes labeled as their charge(q) and not their electric potential(battery poles). the force between 2 like charges can be shown: |FC| = K(Q1Q2/r2) where K is the Electrostatic Constant (9.0x109 Nm2 /C2 ), Q1= charge 1 Q2= charge 2 r = the distance between charges so if the electric field vector is FE = 1(0, -1), the coulomb force on charge 1 from charge 2 is FQ1 = 2(1, 0), the coulomb force on charge 2 from charge 1 is FQ2 = 2(-1, 0), and Ftotal = FE + FC a vector calculator shows me Ftotal for Q1 = 2.23(2, -1) which is 333.43 degrees, and Ftotal for Q2 = 2.23(-2, -1) which is 206.57 degrees if the electric field was an alternating, FE would cause each charge to change direction in the +-Y direction and FC would force the charges away from each other in the +-X direction. so i'm assuming due to the angle of the side of the cone, with every half cycle the charges would come into contact with it and reflect off; always moving from the center and always alternating their Y position with the AC cycle. i changed the photo Edited October 7, 2020 by DandelionTheory
swansont Posted October 7, 2020 Posted October 7, 2020 19 minutes ago, DandelionTheory said: so if the electric field vector is FE = 1(0, -1), If? What if it's stronger than that? Or weaker? 19 minutes ago, DandelionTheory said: the coulomb force on charge 1 from charge 2 is FQ1 = 2(1, 0), the coulomb force on charge 2 from charge 1 is FQ2 = 2(-1, 0), and The distance between the charges is not given. What does an amplitude of 2 even mean? 19 minutes ago, DandelionTheory said: Ftotal = FE + FC a vector calculator shows me Ftotal for Q1 = 2.23(2, -1) which is 333.43 degrees, and Ftotal for Q2 = 2.23(-2, -1) which is 206.57 degrees Why are these different angles with respect to the x axis? Your diagram looks like it has mirror symmetry along the center line. This answer can't possibly be right, according to the information you have provided. 19 minutes ago, DandelionTheory said: if the electric field was an alternating, FE would cause each charge to change direction in the +-Y direction and FC would force the charges away from each other in the +-X direction. so i'm assuming due to the angle of the side of the cone, with every half cycle the charges would come into contact with it and reflect off; always moving from the center and always alternating their Y position with the AC cycle. This is assuming information that you did not provide. You didn't specify the electric field or the position of the charges, or the distance to the cone. When you make a claim absent such detail, the claim is held to be true in general. And true in general means you can show it without putting numbers in for any of the variables.
DandelionTheory Posted October 7, 2020 Author Posted October 7, 2020 (edited) 1 hour ago, swansont said: The distance between the charges is not given. On 10/5/2020 at 7:51 PM, DandelionTheory said: spaced next to each other. 1 hour ago, swansont said: What does an amplitude of 2 even mean? |FC| = K(Q1Q2/r2) K = 9.0x109 Nm2 /C2 r = 0.001m Q1 = 1.5x10-8C Q2 = 1.5x10-8C gives 2.02N 1 hour ago, swansont said: You didn't specify the electric field 1 hour ago, DandelionTheory said: so if the electric field vector is FE = 1(0, -1), 1 hour ago, swansont said: or the distance to the cone. true. the distance isn't important until the electric field is alternated, i should have specified that. it makes little sense for the charge to initially hit the side of the cone with the first half of the AC cycle, it seems more probable the charge would collide with a side during the other half of the cycle 1 hour ago, swansont said: When you make a claim absent such detail, the claim is held to be true in general. And true in general means you can show it without putting numbers in for any of the variables. thank you, ill keep that in mind. did i miss anything? Edited October 7, 2020 by DandelionTheory
DandelionTheory Posted October 7, 2020 Author Posted October 7, 2020 (edited) 4 hours ago, swansont said: Why are these different angles with respect to the x axis Coulomb force between the 2 charges is on the x axis, the electric field experienced by the 2 charges is on the y. In my head it was easier to visualize, is there a preferred method? Edited October 7, 2020 by DandelionTheory
swansont Posted October 7, 2020 Posted October 7, 2020 4 hours ago, DandelionTheory said: |FC| = K(Q1Q2/r2) K = 9.0x109 Nm2 /C2 r = 0.001m Q1 = 1.5x10-8C Q2 = 1.5x10-8C gives 2.02N You didn’t specify this value of r until after you made your claim. Your diagram says the charge is 1C Are you admitting your claim is incorrect, seeing as you have to fudge the numbers to make things work?
DandelionTheory Posted October 8, 2020 Author Posted October 8, 2020 (edited) 5 hours ago, swansont said: You didn’t specify this value of r until after you made your claim. "Next to each other" isn't hard to grasp. 5 hours ago, swansont said: Your diagram says the charge is 1C Yes and there was is no electric field vector either according to you. But.... Yeah I mentioned them. I explained with an if statement when things are changed for argument sake. No AC in the diagram either, yet it's part of the design.... Interesting. 5 hours ago, swansont said: Are you admitting your claim is incorrect, Is that before you don't understand my claim or after you assume I'm confused? 5 hours ago, swansont said: seeing as you have to fudge the numbers to make things work? 10 hours ago, swansont said: What does an amplitude of 2 even mean? Seems like you forgot what "if" means... Reading comprehension is important in physics... Edited October 8, 2020 by DandelionTheory -1
swansont Posted October 8, 2020 Posted October 8, 2020 12 hours ago, DandelionTheory said: "Next to each other" isn't hard to grasp. It’s not quantitative
DandelionTheory Posted October 8, 2020 Author Posted October 8, 2020 4 hours ago, swansont said: It’s not quantitative Neither is your respect. "Oh gatekeeper, find another that can understand the passwords so I may enter your citadel. Oh swansonnet gatekeeper of understanding." Is that better?
swansont Posted October 8, 2020 Posted October 8, 2020 41 minutes ago, DandelionTheory said: Neither is your respect. "Oh gatekeeper, find another that can understand the passwords so I may enter your citadel. Oh swansonnet gatekeeper of understanding." Is that better? No, actually, it’s pathetic.
DandelionTheory Posted October 8, 2020 Author Posted October 8, 2020 Yeah. Sharing ideas isn't something that can be done with you. Why do you reply? Why does trolling the forums so important when you cannot comprehend a description of 2 force vectors? No for get this I'm done. Have fun gatekeeping, nobody will entertain your thoughts if you cannot entertain theirs.
swansont Posted October 8, 2020 Posted October 8, 2020 16 minutes ago, DandelionTheory said: Yeah. Sharing ideas isn't something that can be done with you. Why do you reply? I was trying to answer your question, but your problem was ill-posed, and somehow now it’s now my fault that you didn’t quantify multiple variables, made up numbers after the fact, and made an assertion that you can’t back up. 16 minutes ago, DandelionTheory said: Why does trolling the forums so important when you cannot comprehend a description of 2 force vectors? No for get this I'm done. Have fun gatekeeping, nobody will entertain your thoughts if you cannot entertain theirs. I know that force vectors have a magnitude that can’t be calculated if you don’t have the information to do the calculations. Something you have not shown you understand.
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