Static Electricity powered toy car project for school

AI Thread Summary
Creating a static electricity-powered toy car is challenging due to the limited range of electric forces. While charged materials can cause slight movement, the effect diminishes quickly, making significant motion unlikely. Suggestions include using two charged plates to create attraction, but this would require manual assistance to move the car. For effective demonstrations, lightweight materials like party balloons can be utilized, as they are easier to manipulate after being charged. Overall, while the concept is interesting, practical implementation may require alternative approaches.
Keshav Nair
Messages
2
Reaction score
0
I have to make a project for school, so I thought that i can make a static electricity car. I wanted to make a car, and stick/put a material behind the car which creates a charge, and then take another material which creates a charge, and rub it. As it creates static electricity, the cars material and the other material repel/attract to move the car. So the help i wanted was, which material should i use to get a good charge, so that the car can move?
 
Physics news on Phys.org
Hi and welcome.
A nice thought but electric forces don't work over big distances (certainly not with the charges and voltages that you could hope to use). Your charged material would / could attract or repel the car and cause it to roll forward by not many millimetres but, by that time the force would have dropped off to almost zero. If you do a search for Electrostatic Experiments on Google, (try the Images Option) you will see the sort of demonstration that is actually possible. Quite entertaining but not in the league of moving a model car along.
One thing you could try would be to use two plates with opposite charges and pull the one plate which would attract the one on the car. But it would be you who is pulling the car. The two plates would just be the coupling.
PS Party balloons are big and light and you can easily support one of those after you have rubbed it on your head. (See your Google images search.
 
sophiecentaur said:
Hi and welcome.
A nice thought but electric forces don't work over big distances (certainly not with the charges and voltages that you could hope to use). Your charged material would / could attract or repel the car and cause it to roll forward by not many millimetres but, by that time the force would have dropped off to almost zero. If you do a search for Electrostatic Experiments on Google, (try the Images Option) you will see the sort of demonstration that is actually possible. Quite entertaining but not in the league of moving a model car along.
One thing you could try would be to use two plates with opposite charges and pull the one plate which would attract the one on the car. But it would be you who is pulling the car. The two plates would just be the coupling.
PS Party balloons are big and light and you can easily support one of those after you have rubbed it on your head. (See your Google images search.
Thanks :DDDDD
 

Thread 'Maxwell stress tensor'

This is from Griffiths' Electrodynamics, 3rd edition, page 352. I am trying to calculate the divergence of the Maxwell stress tensor. The tensor is given as ##T_{ij} =\epsilon_0 (E_iE_j-\frac 1 2 \delta_{ij} E^2)+\frac 1 {\mu_0}(B_iB_j-\frac 1 2 \delta_{ij} B^2)##. To make things easier, I just want to focus on the part with the electrical field, i.e. I want to find the divergence of ##E_{ij}=E_iE_j-\frac 1 2 \delta_{ij}E^2##. In matrix form, this tensor should look like this...
View full post »
Thread 'Applying the Gauss (1835) formula for force between 2 parallel DC currents'

Thread 'Applying the Gauss (1835) formula for force between 2 parallel DC currents'

Please can anyone either:- (1) point me to a derivation of the perpendicular force (Fy) between two very long parallel wires carrying steady currents utilising the formula of Gauss for the force F along the line r between 2 charges? Or alternatively (2) point out where I have gone wrong in my method? I am having problems with calculating the direction and magnitude of the force as expected from modern (Biot-Savart-Maxwell-Lorentz) formula. Here is my method and results so far:- This...
View full post »

Similar threads

I Meaning of "Static Electricity" and Physical Interpretation
Replies
20
Views
2K
Confused about Polarization and Induction - Static Electricity
Replies
4
Views
5K
Does ECO mode in electric cars make sense?
Replies
5
Views
1K
Moving electric field effect on dielectric/gas
Replies
1
Views
1K
Electric field due to current carrying conductor
Replies
2
Views
3K
Electric field Difference between Electrostatics and Electrodynamics
Replies
2
Views
3K
Electrostatic levitation of hair
Replies
7
Views
3K
I Do Electric field lines propagate by themselves away from a charge?
2
Replies
73
Views
5K
I How Do Dielectrics Influence Electric Flux Density in Electromagnetic Theory?
Replies
5
Views
2K
How can you use electricity to create static charge and bend water?
Replies
5
Views
2K

Hot Threads

Recent Insights

Back
Top