Mouse trap powered car- with fast acceleration

  • Thread starter Thread starter yellowbus
  • Start date Start date
  • Tags Tags
    Acceleration Car
AI Thread Summary
A mousetrap powered vehicle designed for short-distance travel should prioritize rapid acceleration. Using smaller diameter and wider tires can enhance traction, while weight distribution can influence speed, particularly in terms of traction rather than translational speed. Minimizing the moment of inertia is crucial for achieving quick acceleration and deceleration, suggesting that hollow wheels may be beneficial. Additionally, innovative designs, such as a hollow cylindrical shape, can improve stability and aesthetics. Creative ideas like integrating a bottle rocket or a rubber band mechanism could further enhance the vehicle's performance.
yellowbus
Messages
4
Reaction score
0
Hi, I'm making a mousetrap powered vehicle, but it's to travel 5 feet and stop. Most designs online are made to travel the longest, so can I get advice on making it travel a short distance in the shortest amount of time?
 
Physics news on Phys.org
My opinion would be to apply the acceleration force as quickly as possible. You should use tires with smaller diameter and larger width to increase traction. Also, minimizing weight won't be near as important as when going for distance since you need some weight for traction.
 
sry to bring this back again, but would weight shift matter? for ex., if I added weight to the front and relieved weight from the back, would it make the car faster?
 
It would matter in the case of traction, but I don't think in ideal circumstances, the distribution of mass affects the translational speed. I know it does in rotational speed, which would require some look into the moments of inertia. Different mass distributions (e.g. a solid cylinder, a hollow cylinder, a ball...etc) have different moments of inertia, which affect how much energy is required to get them to a particular speed. This is relevant when you pick your wheels/tires. You'll want to minimize your moment of inertia so that it takes the least amount of energy to get it up to speed. Off the top of my head, a hollow cylinder probably has the smallest, but that's just your typical tire. The effect might be negligible, but maybe try and make your wheels hollow in the center. Low inertia means it's easier to change speed, therefore it would get fast faster and slow down faster, which fits your goals of going fast and then stopping in a short amount of time.

Edit: Maybe make your car in the shape of a big hollow cylinder some how and exploit this fact. If the cylinder were wide, you wouldn't have much trouble going in a straight line, and you'd effectively have one big tire. If nothing else, it would look cool ;).
 
Turn it upside down and leap the 5 foot.
 
Tie a match the the mouse trap and when it goes off, have the match swing down and light a bottle rocket on the back of it.
 
Or tie a rubber band to a steely and then to the mouse trap. Launch the steely and it'll drag the trap five foot.
 

Similar threads

A Trying to solve an auto accident question
Replies
1
Views
1K
Getting a Mouse Trap Car to Move
Replies
3
Views
6K
Can an object maintain uniform motion without any external force?
2
Replies
66
Views
5K
Determine speed needed to cause rollover of car hitting ramp
Replies
4
Views
2K
Does speed affect energy consumption over a certain distance?
Replies
6
Views
3K
Solving Car Collision: Velocity Impact of 40cm Rear End Impact
Replies
17
Views
2K
Create a car to pick up a ballon, travel a distance, and pop it
Replies
11
Views
2K
I am building a mouse trap car and I have several design issues.
Replies
1
Views
14K
HELP Trying to Make a Spring Car No Mouse Traps
Replies
1
Views
8K
Friction in non-uniform circular motion of a car
Replies
11
Views
5K

Hot Threads

Recent Insights

Back
Top