Pour water in there then pour it and stretch it out.....it explains what you are going to do with it?
The elasticity of the balloon's material allows it to expand and take on different shapes when filled with water. As the balloon fills with water, the pressure from the water pushes against the sides of the balloon, causing it to stretch and change shape.
Adding water to a balloon changes the distribution of forces acting on it. The water inside the balloon adds weight, causing the balloon to stretch and become thinner. This makes the balloon more susceptible to popping as the tension in its material increases.
The elasticity of the balloon material allows it to stretch as the water occupies more space inside, preventing it from bursting. The pressure is distributed evenly throughout the balloon, reducing the likelihood of it bursting.
The water-filled balloon will warm up and expand as the temperature of the water increases. This is because the molecules in the water gain more energy and move faster, causing the balloon to stretch. If the water is too hot, the balloon may burst due to the increased pressure from the expanding water.
You can have the candle flame actually touch the balloon, and the balloon won't break! The water in the balloon is absorbing the heat from the candle. The balloon conducts heat very well, so the candle flame transfers to the water without harming the balloon.
The elasticity of the balloon's material allows it to expand and take on different shapes when filled with water. As the balloon fills with water, the pressure from the water pushes against the sides of the balloon, causing it to stretch and change shape.
To inflate a water balloon, stretch the balloon opening over a faucet and turn on the water slowly until the balloon reaches the desired size. Alternatively, you can use a water balloon pump to inflate the balloon. Just make sure not to overinflate it to avoid bursting.
Adding water to a balloon changes the distribution of forces acting on it. The water inside the balloon adds weight, causing the balloon to stretch and become thinner. This makes the balloon more susceptible to popping as the tension in its material increases.
The elasticity of the balloon material allows it to stretch as the water occupies more space inside, preventing it from bursting. The pressure is distributed evenly throughout the balloon, reducing the likelihood of it bursting.
The water-filled balloon will warm up and expand as the temperature of the water increases. This is because the molecules in the water gain more energy and move faster, causing the balloon to stretch. If the water is too hot, the balloon may burst due to the increased pressure from the expanding water.
Stretch the mouth of the deflated water balloon over a tap or other pressurized water source. Turn on the tap so that water rushes into the balloon. Once filled, twist the balloon at the neck a few times. This way water does not escape when you remove the mouth of the balloon from the tap. Once removed, tie the twisted neck of the balloon in a knot to prevent water from escaping.
To conduct a yeast balloon experiment, you will need a balloon, a water bottle, warm water, sugar, active dry yeast, and a funnel. First, mix the warm water with sugar in the bottle, add yeast using the funnel, and stretch the balloon over the top of the bottle. As the yeast consumes the sugar and produces carbon dioxide, the balloon will inflate.
You can have the candle flame actually touch the balloon, and the balloon won't break! The water in the balloon is absorbing the heat from the candle. The balloon conducts heat very well, so the candle flame transfers to the water without harming the balloon.
Both the bladder and a water balloon are flexible, thin-walled structures that can expand and contract to hold a liquid. They are both designed to store and release fluid, with the ability to stretch to accommodate varying volumes of liquid.
Balloons are designed to stretch to accommodate different volumes, including water, without breaking. The pressure inside the balloon is distributed more evenly when there is water inside, reducing the risk of popping compared to when there is just air inside. Additionally, the water absorbs some of the energy from external forces acting on the balloon, further reducing the likelihood of it popping.
take the balloon,put the top inside of the sink and twist the lever of the sink.(dont pour in too much water)Next, tie the balloon and have the most s!#$ as$ lame water balloon fight ever u loner!
You can increase the size of a balloon without blowing into it by gently stretching the sides of the balloon with your fingers. As you stretch the balloon, the air molecules inside will spread out, causing the balloon to inflate further. Be careful not to stretch it too much to avoid popping the balloon.