Please kindly do no answer if you dont have a detailed conclusion to write thank
ID: 3162350 • Letter: P
Question
Please kindly do no answer if you dont have a detailed conclusion to write thank youu Boyle's Law Introduction In 1662, Robert Boyle discovered the relationship between the volume and the absolute pressure of a gas that is held at a constant temperature. In this experiment, you will rediscover this relationship by holding the temperature of a gas constant and changing the volume of the gas, and measuring the volume and the absolute pressure. Ideal Gas Law Apparatus Equipment deal Gas Law PS-2107 Absolute Pressure Sensor uad T Setup The Ideal Gas Law Syringe allows simultaneous measurements of temperature and pressure of a gas as it is compressed. The mini stereo jack is connected to a low thermal mass thermistor built into the end of the syringe to measure temperature changes inside the syringe. Plug the mini stereo jack into port 1 on the Quad Temperature Sensor. Figure Attaching Sensors The white plastic tubing coupler attaches to the pressure port of the sensor. A slight twisting motion locks the coupler onto the port (see Figure 1) This white plastic connector can be disconnected and re- connected during the experiment to allow for different initial plunger positions. All of the clear plastic fittings are glued in place and cannot be removed. The plunger is equipped with a mechanical stop that protects the thermistor, and also allows for a quick, predetermined change in volume. Never slam the plunger down on the table. Always grip the syringe and plunger (as shown in Figure 2 to compress the air. Figure Compressing the Syringe
Explanation / Answer
The conclusion of the experiment to verify the Boyles law which states that the absolute pressure of a gas is inversely proportional to its volume at the constant temperature.
This formula can be used to determine the temperature or number of moles if either of them is given by using the slope of P vs 1/V. The slope is equal to nRT.
One can also determine the final volume and pressure if temperature is increased at the constant pressure or volume.