Question

List out the material required for the experiment 'HCI reacts with Zn
pieces and liberated H2gas'.

Answer 1

Answer:

introduction;

For chemical reactions involving gases, gas volume measurements provide a convenient means of

determining stoichiometric relationships. A gaseous product is collected in a long, thin graduated glass

tube, called a eudiometer, by displacement of a liquid, usually water. Magnesium reacts with hydrochloric

acid, producing hydrogen gas:

Mg (s) + 2HCl (aq) ® MgCl2 (aq) + H2 (g)

Note: for every mole of Mg (s) that is reacted, one mole of H2(g) is produced. If we know the

mass of Mg(s) we can convert to moles of Mg(s). Then, since we get 1 mole of H2(g) for every mole of

Mg(s), we can predict how many moles of H2(g) could be made (theoretical yield). We use an excess of

HCl so that we would react all the Mg(s) before we used all of the HCl.

When the magnesium reacts with the acid, the evolved hydrogen gas is collected by water

displacement and its volume is measured. The temperature of the gas is taken to be the same as the

temperature of the water it is in contact with because, given a sufficient amount of time, the two will reach

thermal equilibrium. The level of water in the eudiometer is adjusted so that it is equal to the level of water

outside the eudiometer. This insures that the pressure in the eudiometer is equal to the prevailing

atmospheric pressure. Because the hydrogen gas was collected above water, and water has a significant

vapor pressure, to get the pressure of pure hydrogen (dry hydrogen), we must subtract the vapor pressure of

water. The pressure of the dry hydrogen gas (PH2) is calculated from Dalton's Law of Partial Pressures:

Ptotal = PH2 + PH2O so PH2 = Ptotal - PH2O

where Ptotal (the pressure in the eudiometer) is atmospheric pressure, and PH2O (the water vapor

pressure) is the pressure exerted by water vapor that has evaporated into the eudiometer. We will get the

vapor pressure of water from the table below of vapor pressure vs. temperature.  

Chemistry 108 Lab #3

2

The number of moles of hydrogen gas collected can then be calculated from the ideal gas law:

(n= # moles H2) n = PV (Use PH2 here, not Ptotal)

RT

This will give you the experimental # moles of hydrogen gas collected. The theoretical # of moles

of H2(g) can be calculated by converting the mass of Mg to moles Mg, and understanding that we get 1

mole of H2 from every mole of Mg(s). From the theoretical yield and the experimental yield, one can

calculate the percent yield:

Percent Yield = experimental # moles H2 ´ 100%

theoretical #mole H2

PROCEDURE:

1. PUT ON RUBBER GLOVES. Fill the largest beaker in your drawer

(400 ml or a 600mL beaker) about 2/3 full of water and allow it to sit on the

base of a ring stand so that the temperature of the water may adjust to room

temperature. Place a buret clamp on the ring stand well above the beaker.

2. Obtain a 4-5 cm length of magnesium ribbon from the back counter of the

lab room. Weigh and record the mass of the magnesium ribbon in your

data table. Your magnesium should have a mass no larger than 0.0450 g. Roll

the magnesium ribbon into a loose coil. Obtain a piece of thread 25 cm in

length, and tie it to one end of the magnesium ribbon in such a way that all the

loops of coil are tied together (see Figure 1).

3. Get a eudiometer. Always carry a eudiometer in a

vertical position. The eudiometer will contain water.

Empty out the water into your sink and temporarily

attach it to the buret clamp, open end up.

4. Using a glass funnel, add about 10 mL of hydrochloric acid to your eudiometer.

Next, add enough water to the eudiometer to fill it completely. Reattach the

eudiometer to the buret clamp, open end up (see Figure 2).

5. Obtain a one-hole rubber stopper from the back counter. Take your magnesium

coil and lower it into the water of the eudiometer to a depth of about 5 cm. Have the

thread attached to the coil hang over the lip and out of the eudiometer. Insert the onehole rubber stopper into the eudiometer so the thread is held firmly against the edge,

and when water squirts out of the hole in the stopper, cover the hole firmly with your

thumb (see Figure 1).

Figure 1

Figure 2

Chemistry 108 Lab #3

3

6. Taking care that no air enters, remove the eudiometer from the buret clamp, invert it, and place its open end

underwater in the beaker. Re-clamp the eudiometer to the buret clamp so that the bottom of the eudiometer

is about 1 cm below the surface of the water in the beaker. The acid will flow down the eudiometer and

react with the magnesium.

7. When the magnesium has

disappeared entirely and the reaction

has stopped, tap the tube with your

finger to dislodge any bubbles you see

attached to the side of the eudiometer.

Measure the temperature of the water in

your beaker; this will be the temperature

of the hydrogen gas in the eudiometer.

Record this value, to the nearest

0.1o

C, in your data table. Because

your thermometer reads to a tenth of a

degree Celsius, add 273.2 when

converting to Kelvin.

Answer 2

Answer:

Materials required :

• Dilute HCL
• Zinc granules
• Delivery tube
• Soap water
• Stand
• Test tube
• Cork