Does a soda bottle rocket go further if it spirals?

A soda bottle rocket will not go further if it spirals. In fact, it will likely go a shorter distance than a rocket that does not spiral. This is because the spiral creates drag, which slows the rocket down.

The Magnus effect is a phenomenon that occurs when a spinning object moves through a fluid. The Magnus effect creates a force that is perpendicular to both the direction of motion and the direction of spin. In the case of a soda bottle rocket, the Magnus effect creates a force that pushes the rocket sideways. This sideways force slows the rocket down and causes it to travel a shorter distance.

The amount of drag created by the Magnus effect depends on the speed of the rocket, the size of the rocket, and the rate of spin. The faster the rocket is spinning, the more drag it will create. The larger the rocket is, the more drag it will create. And the slower the rocket is moving, the more drag it will create.

Therefore, a soda bottle rocket will not go further if it spirals. In fact, it will likely go a shorter distance than a rocket that does not spiral.