Final answer:
Pressure increases can be intensified by higher temperatures in gases, changes in flow velocity in fluids, and structural demands in engineering contexts like dams or vessel walls.
Step-by-step explanation:
The pressure to deviate further is intensified by various factors depending on the context in which pressure is being discussed. In the case of gases, for instance, an increase in temperature often leads to an increase in pressure because the gas molecules move faster and collide with the walls of their container with more force.
This relationship is governed by the ideal gas law, where pressure is directly proportional to temperature when volume is held constant.
In another context, such as blood flow, pressure can be affected by the narrowing of a channel, which can lead to a significant pressure difference. In the case of fluid mechanics, the Bernoulli's principle indicates that as a fluid's velocity increases due to a narrowing channel, the pressure within the fluid correspondingly decreases.
However, if a fluid is confined and cannot move, a narrowing channel can increase the pressure due to a net force resulting from the pressure difference across the narrowed area.
In engineering scenarios, like the thickness of a dam or the walls of a vessel or balloon, pressure is also directly related to the force exerted by a liquid or gas on an area.
As the pressure increases due to deeper water or higher temperature, the structure has to compensate by being stronger or thicker to withstand the added force. Failure to do so can result in damage or bursting due to the increased pressure.