(a million) with connection with the Boyle’s regulation Assuming that temperature maintains to be consistent, for a mounted quantity of a gaseous fabric, the quantity and stress are inversely proportional. Mathematically, it fairly is represented as below: If stress = P quantity = V As consistent with Boyle’s regulation PV=ok (consistent) which potential if stress is better, a mounted quantity of gaseous fabric may well be contained in a smaller/limited quantity. that's what we do in pneumatic (inflatable) tire of a bike. this is compressed air is contained interior the tire (2) interior the tire of a bike there's a inflatable tube created from rubber, which additionally has valve-tube contained in one in each of those appendage to the tube. The valve-tube is the compressed-air get right of entry to to the inflatable tube. The valve tube includes a small length of rubber tube, tightly equipped on a steel tube which has hollow on the facet that starts off from the suitable end of the steel tube. this mixture works as NON-return VALVE for the compressed air, which enter into the inflatable tube. whilst the air pump is operated and the air stress interior pump, will become better than the air stress interior the pneumatic (inflatable) tube, the compressed air enters contained in direction of the valve-tube (NR valve) interior the pneumatic tube. yet due the NR valve, compressed air can not come out in a classic subject. Addition after at some point Boyle's regulation is in operation once you force your bike: whilst the wheel hits potholes or bumps , the tire differences its shape/quantity. The compressed air gets futher compressed, or decompressed as a effect, for all time in accordance with the above suggested regulation.