developed the suction pump. he used air to draw underground water up a column, similar to how a syringe draws water. he was preplexed as to why there was a limit to the height water could be raised.

developed the first barometer. he carried on Galileo's work by determining that the limit to the height Galileo's pump could draw water was due to atmospheric pressure. he invented a closed-end tube filled it with mercury that, inturn, was suspended in a shallow dish filled with liquid mercury. the height of the coloumn of mercury in the tube(measured in mmHg) was equal to the atmospheric pressure acting on the mercury in the plan

made a pump that could create a vacuum so strong that a team of 16 horses could not pull two metal hemispheres apart. he reasoned that the hemispheres were held together by the mechanical force of the atmospheric pressure rather than the vacuum.

used Torricelli's "barometer" and travelled up and down a mountain in southern France. he discovered that the pressure of the atmosphere increased as he moved down the mountain. sometime later the SI unit of pressure, the Pascal, was named after him.

developed the manometer to study the elastic forces in gases.

stated that in a mixture of gases the total pressure is equal to the sum of the pressure of each gas, as if it were in a container alone. the pressure exerted by each gas is called its partial pressure.

obcerving the law of combining volumes. he noticed that, for example, two volumes of hydrogen combined with one volume of oxygen to form two volumes of water.

suggested, from Gay-Lussac`s experiments conducted three years earlier, that the pressure in a container is directly propotional to the number of particles in that container (known as Avogadro`s Hypothesis). This can be illustrated by blowing up a balloon, ball, or tire: the more air is added the larger the container becomes due to increased pressure.