When you stick a pin in a balloon, it creates a small hole that allows the air inside to escape rapidly. The pressure inside the balloon is greater than the pressure outside, causing the air to rush out and the balloon to deflate quickly.
When a balloon is pricked by a pin, the air inside the balloon will quickly escape, causing the balloon to deflate rapidly. The balloon will shrink in size and eventually become flat.
When a balloon is poked with a pin, the sharp object creates a hole in the balloon's surface. As a result, the air inside the balloon rapidly escapes through the hole, causing the balloon to deflate quickly.
To put a pin in a balloon without it popping, slowly insert the pin into the thickest part of the balloon where the rubber is strongest. Gently push the pin through rather than jabbing it in quickly to minimize the risk of popping.
A pin can pop a balloon because it has a very small, sharp point that can easily puncture the thin surface of the balloon. When the point of the pin comes into contact with the balloon, it creates a small hole through which the air inside the balloon can escape rapidly, causing the balloon to burst.
The property shown when an inflated air balloon collapses with a pin is compressibility. Gases can be easily compressed because they have particles that are far apart and have high kinetic energy, allowing them to be squeezed into a smaller volume. When the balloon is punctured, the gas particles can quickly move closer together, causing the collapse of the balloon.
When a balloon is pricked by a pin, the air inside the balloon will quickly escape, causing the balloon to deflate rapidly. The balloon will shrink in size and eventually become flat.
When a balloon is poked with a pin, the sharp object creates a hole in the balloon's surface. As a result, the air inside the balloon rapidly escapes through the hole, causing the balloon to deflate quickly.
To put a pin in a balloon without it popping, slowly insert the pin into the thickest part of the balloon where the rubber is strongest. Gently push the pin through rather than jabbing it in quickly to minimize the risk of popping.
No. But it is what you think will happen to the expiriment e.g. "I think the balloon will pop when I stick a pin in it." Someone else might have a different hypothesis "I think the balloon will not pop when I stick a pin in it" So basically its what you think will happen, hope that helps!
A pin can pop a balloon because it has a very small, sharp point that can easily puncture the thin surface of the balloon. When the point of the pin comes into contact with the balloon, it creates a small hole through which the air inside the balloon can escape rapidly, causing the balloon to burst.
The property shown when an inflated air balloon collapses with a pin is compressibility. Gases can be easily compressed because they have particles that are far apart and have high kinetic energy, allowing them to be squeezed into a smaller volume. When the balloon is punctured, the gas particles can quickly move closer together, causing the collapse of the balloon.
A pin works well on an ordinary toy balloon.
Popping a balloon with a pin requires less force because the pin concentrates the pressure to a small area, piercing the balloon easily. Stepping on a balloon distributes your weight across a larger area, making it harder to apply enough force to pop the balloon.
When a balloon is pierced with a pin, the sudden pressure from the sharp object creates a small tear in the balloon's thin material. This tear rapidly expands due to the high pressure inside the balloon, causing the balloon to burst.
Pin
It takes a certain amount of force to push a pin into a balloon to pop it. When you put the balloon on the pins the weight of the balloon is creating the force pushing on it. When there are many pins this force is shared by the many pins. If the weight of the balloon were 20 milligrams and there were 20 pins, each pin would only be pushing against the balloon with a force of 1 milligram. If it takes 5 milligrams pushing a pin into a balloon to pop it no one pin is pushing that hard. On the other hand if it were resting on three or fewer pins it would pop. [NOTE: I have no idea how much balloons weigh nor how many milligrams of force pressing a pin into a balloon is required to burst it. The numbers given are for illustrative purposes only. ]
attach a pin to your butt lol!!!!!!!!!!!!!!!!!!!