how can you define the problem how far can you make a rubber stopper fly through the air if the only force applied comes from a gas forming chemical reaction

To define the problem of how far a rubber stopper can fly through the air using only the force from a gas forming chemical reaction, you can follow these steps:

1. Identify the key variables: In this case, the variables could include the mass of the rubber stopper, the amount of gas produced by the chemical reaction, the initial velocity of the stopper, and any other relevant factors like air resistance.

2. Understand the physics involved: To calculate the distance the rubber stopper can travel, you need to consider the principles of projectile motion and the force exerted by the gas forming chemical reaction. The reaction will generate a certain force, causing the stopper to accelerate. As the stopper moves through the air, air resistance will act as a opposing force, gradually slowing it down.

3. Determine the force from the chemical reaction: You can determine the force generated by the chemical reaction by examining the properties and behavior of the reactants involved in the specific reaction. This might involve researching the reaction itself or consulting scientific literature and resources on gas formation.

4. Calculate the distance: To calculate the distance traveled by the stopper, you will need to apply principles of projectile motion. This typically involves calculating the initial velocity, angle of projection, and factoring in any external forces (like air resistance).

5. Perform experiments or simulations: Finally, you can conduct experiments or use simulations to test the calculated values and measure the actual distance the rubber stopper travels. This will validate your calculations and provide a real-world understanding of the problem.

It's important to note that an accurate determination of the distance the rubber stopper can fly will require precise measurements, proper control of variables, and a sound understanding of the physics involved.