If you prick the balloon in a lung model, it simulates a condition like a punctured lung or a collapsed lung. This can lead to air escaping from the lung space, causing a loss of pressure and potentially compromising the lung's ability to expand and contract properly.
When you inhale and pull down on the bottom balloon, you create a decrease in pressure inside the model lung, causing the air from the top balloon to flow into the bottom balloon. This mimics the process of inhalation in the human respiratory system, where the diaphragm contracts to expand the lungs and draw air in.
Blowing up a balloon strengthens the muscles used for respiration, particularly the diaphragm and intercostal muscles. It can also help improve lung capacity and control breathing. Additionally, it can be a fun and enjoyable activity for children and adults alike.
A lung model with balloons works by simulating the expansion and contraction of the lungs during breathing. The balloons represent the lungs, and as air is pumped in and out of the balloons, they inflate and deflate to demonstrate how the lungs function. This model helps visualize the process of breathing and how the lungs take in oxygen and release carbon dioxide.
The model lung with balloons can be used to demonstrate how the diaphragm and rib muscles work together to expand and contract the lungs, mimicking the process of inhaling and exhaling. As the balloons inflate and deflate, it shows how the lungs fill with air when we breathe in and release air when we breathe out. This hands-on demonstration helps visualize the mechanics of breathing in a simple and interactive way.
underwater your lung become a balloon and as much air it hold as much positive buoyancy effect it makes. We are using our lung underwater to maintain our buoyancy. That is why you should follow the rule of "Never Hold a breath" as if you did and assented fast your can damage your lung
it will pop it
When you inhale and pull down on the bottom balloon, you create a decrease in pressure inside the model lung, causing the air from the top balloon to flow into the bottom balloon. This mimics the process of inhalation in the human respiratory system, where the diaphragm contracts to expand the lungs and draw air in.
a balloon and a lung
The cancer can cause the lung tissue to start to bleed. But it won't actually burst like a balloon or anything like that.
two lungs are surrounded by pleura , which is responsible for transmural pressure that makes the lungs inflated by gas when there is inspiratory process. so when the puncture happens wherever the site , the pleura will lose its negative pressure , as a result Both lungs will collapse it is late answer according to your Q time , but arriving late better than not arriving at all ^_^ i hope i could answer the Q dr . Harith Ali
There really isn't much similarity between a balloon and a lung. The surface of a balloon is smooth...lungs have alveolar sacks that increase the surface area of the lung tissue. This also increases the cross membrane exchange from and to the lung and into the capillaries supplying oxygen and expelling carbon dioxide.
you would die
it expand
the lung of most frog and other amphibian are simple balloon-like sturture with gas excange limited to the outer surface area of the lung.
by studying it practically
your lung like different
what happen when they cannot get fuild off your lung