Yes, the size of the balloon affects the amount of static power it can hold. A larger balloon has more surface area to build up static electricity compared to a smaller balloon. However, other factors such as the material of the balloon and environmental conditions also play a role in determining the amount of static power.
Yes, the size of a balloon can affect the amount of static electricity it can give off. A larger balloon can hold a greater charge and potentially generate more static electricity compared to a smaller balloon. However, other factors such as the material of the balloon and environmental conditions can also impact the amount of static electricity generated.
No, the size of the comb does not affect the power of static electricity. The power of static electricity is mainly determined by factors like friction and the materials involved, rather than the size of the comb.
You would need a significant amount of static electricity for a balloon to stick to the ceiling. Static electricity is caused by an imbalance of electric charge on an object, creating attraction or repulsion. The amount of static electricity required to make a balloon stick to the ceiling would depend on the size of the balloon, the material it's made from, and the type of ceiling surface.
yes it does
The size of the balloon does impact its lifting capacity because a larger balloon can displace more air and generate more lift. So, larger balloons generally have a greater lifting power compared to smaller ones.
Yes, the size of a balloon can affect the amount of static electricity it can give off. A larger balloon can hold a greater charge and potentially generate more static electricity compared to a smaller balloon. However, other factors such as the material of the balloon and environmental conditions can also impact the amount of static electricity generated.
No, the size of the comb does not affect the power of static electricity. The power of static electricity is mainly determined by factors like friction and the materials involved, rather than the size of the comb.
Yes, the size of the comb can affect the static power due to the different surface area it covers and the amount of charge it can accumulate. Larger combs may generate more static power compared to smaller ones.
i don't think its anything to do with colour, i think it's more to do with the thickness of the rubber and size of the balloon.
You would need a significant amount of static electricity for a balloon to stick to the ceiling. Static electricity is caused by an imbalance of electric charge on an object, creating attraction or repulsion. The amount of static electricity required to make a balloon stick to the ceiling would depend on the size of the balloon, the material it's made from, and the type of ceiling surface.
Yes, a difference in air temperature can affect the size of a balloon. When air temperature increases, the air inside the balloon expands, causing the balloon to inflate. Conversely, when air temperature decreases, the air inside the balloon contracts, causing the balloon to deflate.
yes
When the temperature is colder the particles in the balloon travel slower, making the balloon not able to increase in size it decreases.When the temperature is hot it allows the balloon to expand because the particles in the balloon are moving rapidly. in conclusion the the cold makes the balloon decrease in size and the heat allows it to expand.
Yes, temperature can affect the maximum size you can inflate a balloon. In general, as temperature increases, the air molecules inside the balloon expand, allowing for a larger maximum size before the balloon bursts. Conversely, in colder temperatures, the air molecules contract, limiting the maximum size the balloon can reach.
The size and affect of a thunderstorm is variable, depending on the amount of static electricity that has built up.
yes it does
The size of the balloon does impact its lifting capacity because a larger balloon can displace more air and generate more lift. So, larger balloons generally have a greater lifting power compared to smaller ones.