A device for receiving and collecting oxygen. Practical work “Obtaining and properties of oxygen. Obtaining oxygen by the method of air displacement

Sections: Chemistry

Practical work No. 1

9th grade.

Obtaining oxygen and studying its properties.

• learn to receive, collect oxygen by the method of water displacement and the method of air displacement; the study of physical and chemical properties oxygen; combustion of coal in oxygen and air; improve safe work practices by checking the device for leaks.
• independence, accuracy, diligence, cooperation, observation.
• the ability to draw up equations of chemical reactions, the ability to draw conclusions, to comply with safety regulations.

Devices: test tubes, gas outlet tube, chemical glass, burning spoon, glass plate, cotton wool, cork, dry fuel, matches.

Reagents: Potassium permanganate, vessel with water, coal.

Acquaintance with instructions No. 1, No. 7.str51.

Progress:

1. Put a ball of cotton wool in a test tube with potassium permanganate and close it with a cork with a gas outlet tube and check the device for leaks. To do this, lower the gas outlet tube into water, heat the test tube with the palm of your hand. If the device is sealed, then an air bubble will come out of the gas outlet tube.

2. Fix the test tube in a rack in a horizontal position. First, we heat the entire test tube, then we heat the part where potassium permanganate is located. Oxygen is poorly soluble in water, so oxygen bubbles coming out of the gas outlet tube will displace water from the test tube. The gas outlet tube should be removed from the water without stopping heating the test tube with potassium permanganate. If you collect oxygen by water displacement, then do not stop heating while the gas tube is under water!

3. With the help of a smoldering splinter, we will prove the presence of oxygen in the test tube. If the torch flashes brightly, then there is oxygen in the test tube. Since oxygen is a colorless gas, the density of oxygen is greater than the density of air, low solubility in water.

4. Obtaining oxygen. Draw figs. 37 and 38. 111!

2 KMnO 4 >K 2 MnO 4 + MnO 2 + O 2 ^

2H 2 O 2 >2H 2 + O 2 ^

2KClO 3 >2KCl+3O 2 ^

5. Combustion of coal, a simple substance in oxygen .

6. Combustion of a complex substance, methane in oxygen.

CH 4 + 2O 2 > CO 2 + 2H 2 O

Conclusion. We learned to get oxygen in 2 ways: by the method of displacement of air and the method of displacement of water. Learn about the physical properties of oxygen. Learned how to write equations chemical reactions characterizing the chemical properties of oxygen. Substances in oxygen burn better. The interaction of complex substances with oxygen produces carbon dioxide and water.

The report can be formatted as a table.

Practical work No. 3, Chemistry Grade 8. Author - Minchenkov E.E.

Hydrogen production and combustion.

• learn how to produce hydrogen, study the physical and chemical properties of hydrogen, improve methods of working with laboratory equipment and substances;
• to cultivate independence, accuracy, diligence, cooperation, observation, diligence, attention;
• students should be able to assemble a plant for producing hydrogen, check for purity be able to draw up the results of practical work, draw the right conclusions from the observed experiments.

Devices: test tubes, vent tube, matches, tripod.

Reagents: zinc, hydrochloric acid.

Safety requirement at work: be careful with acid, with fire, glassware, take substances in a small dose, keep order and silence, do not disturb your neighbor.

Progress:

Physical Properties		Chemical properties
The hydrogen molecule is diatomic-H 2 . Under normal conditions, it is a colorless, odorless and tasteless gas. The lightest gas, its density is 14.5 times less than that of air. It has a high thermal conductivity as the lightest molecules move faster. In terms of prevalence in the universe, it ranks first. On Earth it is in the form of compounds. The value of hydrogen is great, as well as oxygen.		Hydrogen molecules are quite strong. In order for hydrogen to react, a lot of energy must be expended. Reacts only with very active metals, forming a hydride. Interacts with non-metal fluorine, forming hydrogen fluoride. F 2 + H 2 \u003d 2HF When heated, it takes oxygen away from some oxides. CuO + H 2 \u003d Cu + H 2 O
What do I do	Observations		Reaction equation
1. Obtaining hydrogen. Carefully lower 3-4 pieces of zinc into the test tube, fix the test tube in a tripod. Pour hydrochloric acid (2-3 cm.). We close the test tube with a stopper with a gas outlet tube. We put a dry test tube on the upper end of the tube. 2.Checking hydrogen for purity. After a minute, remove the test tube from the tube and, without turning it over, bring it with the hole to the flame. 3. Combustion of hydrogen. Let's bring a burning match to the end of the gas outlet tube. 4. Above the flame of burning hydrogen, we hold a glass turned upside down.	1. Gas is released. Since the gas is lighter than air, therefore, the receiver tube is placed upside down. 2. If hydrogen burns with a slight dull pop, then this proves that it is pure. If a whistling sound is heard, then hydrogen is mixed with oxygen in the air. It is impossible to set fire to such hydrogen. It might explode. 3. Hydrogen is a combustible gas, therefore it burns. 4. The inner wall of the glass fogs up.		Zn + 2HCl \u003d ZnCl 2 + H 2 2H 2 + O 2 \u003d 2H 2 O	Metal atoms have displaced hydrogen atoms from the acid molecule. When hydrogen molecules interact with oxygen molecules, water molecules are formed in the form of vapor.

Industrial method for producing hydrogen. The reaction of methane with water at high temperature.CH 4 +2H 2 O \u003d CO 2 +4H 2 - 165kJ.

laboratory method. Decomposition of water by electric current. 2H 2 O \u003d 2H 2 + O 2

Output of the work. Learned how to get hydrogen. We studied the physical and chemical properties of hydrogen.

Practical work No. 6, chemistry grade 8. Author - Minchenkov E.E.

Generalization of information about the classes of inorganic compounds.

• to study the properties of substances, to consolidate the main signs and conditions for the occurrence of chemical reactions, to learn how to write equations for chemical reactions, to draw conclusions from observations, to improve methods of working with substances and laboratory equipment.
• to cultivate independence, accuracy, diligence, cooperation, observation, diligence, attention.
• students should be able to draw conclusions from observations, be able to draw up the results of practical work, be able to correctly set up experiments.

Equipment and reagents: alcohol lamp, holder, glass slide, test tubes, СuO, HCl, NaOH, Mq, CuSO 4 .

Safety requirements for work: Be careful with acid, alkali, match and glassware; take substances carefully in a small dose, keep order and silence, do not interfere with a neighbor.

Rear 1. СuO CuCl 2 Cu (OH) 2 Cu

What do I do	Observations	Reaction equation
I put copper oxide in a test tube and add hydrochloric acid	Copper oxide dissolves	CuO + 2HCl \u003d CuCl 2 + H 2 O	A neutralization reaction occurs with the formation of salt and water
Add sodium hydroxide to the resulting solution.	A blue precipitate	CuCl 2 + 2NaOH \u003d Cu (OH) 2 + 2NaCl	As a result of the binding of copper ions and OH ions, an insoluble base copper hydroxide is formed
I drop a solution of copper hydroxide onto a glass slide and hold it over the flame of an alcohol lamp.	The sediment turns black	Cu(OH) 2 CuO+H 2 O	Since copper hydroxide is an insoluble base, it decomposes into copper oxide and water when heated.

Rear 2. Mg MgO MgCl 2 Mg(OH) 2

What do I do	Observations	Reaction equation
I burn magnesium in a spoon	Magnesium burns with a bright flame		A white solid is formed - magnesium oxide
I put magnesium oxide powder in a test tube and add hydrochloric acid	Magnesium oxide dissolves	MgO + 2HCl \u003d MgCl 2 + H 2
I add alkali to the resulting solution	Precipitation falls	MgCl 2 +2NaOH \u003d Mg (OH) 2 + 2NaCl	As a result of the binding of magnesium ions and OH ions, an insoluble base is formed

Rear 3. СuSO 4 Сu (OH) 2 CuO CuCl 2

To the solution blue vitriol I pour lye	A blue precipitate	CuSO 4 + NaOH \u003d Cu (OH) 2 + Na 2 SO 4	As a result of the binding of copper ions and and OH, an insoluble base is formed
I heat the precipitate	The sediment turns black	Cu(OH) 2 \u003d CuO + H 2 O	The insoluble base, when heated, decomposes into copper oxide and water.
I add hydrochloric acid to the precipitate	The precipitate dissolves	CuO + 2HCl \u003d CuCl 2 + H 2 O	A neutralization reaction occurs with the formation of salt and water

Output of the work.

Studied the physical and chemical properties of the main classes of inorganic substances. Found out the existence of a genetic relationship between classes inorganic substances. Salts were obtained from oxides, bases from salts, and oxides from bases. Once again, we recalled the main signs and conditions for the occurrence of chemical reactions.

>> Practical work No. 3. Obtaining oxygen and studying its properties

Practical work No. 3

Obtaining oxygen and studying its properties

Please read the operating instructions carefully before starting work. safety precautions in the chemistry room (pp. 14-15, 22).

Remember how to handle an alcohol lamp, dry fuel, how to heat substances in test tubes. Read the relevant text on p. 18-19, 21 textbooks.

Be careful when handling fire.

Experience I

Obtaining oxygen by heating potassium permanganate

Assembly of the device.

Device for receiving gas consists of a test tube and a rubber stopper with a hole into which a bent glass tube is inserted (it is called a gas outlet).

Collect it (Fig. 59). To do this, tightly close the test tube with a stopper with a gas outlet tube, as if screwing it in. Do not apply excessive force to avoid cracking the glass.

Rice. 59. Device for obtaining gas

Check the device for leaks. Fill a small glass with water up to half its volume. Immerse the end of the gas outlet tube in water and warm the test tube with your hand (Fig. 60).

Rice. 60. Checking the device for leaks

If the connections between the test tube, the stopper and the gas outlet tube are tight, then after a few seconds air bubbles will begin to come out of the tube.

(Explain this effect.) If air does not come out of the tube, then you should separate the parts of the device, and then reconnect them. You can replace the test tube or stopper with the gas outlet tube with others - larger or smaller.

Pour crystalline powder of potassium permanganate into a test tube with a layer of 1.5-2 cm. Place a ball of cotton wool in it, closer to the hole, to make it hard substance remained in the test tube during the experiment. Close the test tube with a stopper with a gas outlet tube and fix it in the rack with a foot. Place a small beaker near the instrument and lower the free end of the gas outlet tube almost to its bottom (Fig. 61).

Rice. 61. Obtaining oxygen

Carrying out the reaction.

Start heating the test tube with potassium permanganate. First, heat the entire test tube evenly, and then heat the part of it where the substance is located. Periodically check the fullness of the glass oxygen with the help of a smoldering torch. When the glass is filled with oxygen, cover it with a glass or ceramic plate.

Experience 2

Reaction between oxygen and carbon. Take a piece of charcoal with tweezers and heat it in a flame. Then quickly add the charcoal to the oxygen beaker. What are you watching?

Your actions, observations, conclusions, as well as equations decomposition reactions of potassium permanganate and the interaction of oxygen with carbon, write in the table:

145. On figure 62 shows methods for collecting oxygen. What properties of oxygen make it possible to use each method?

146. Explain why a hot coal behaves differently in air and in oxygen.

Rice. 62. Collecting oxygen: a - by displacement of air; 6 - water displacement

Popel P. P., Kriklya L. S., Chemistry: Pdruch. for 7 cells. zahalnosvit. navch. zakl. - K .: Exhibition Center "Academy", 2008. - 136 p.: il.

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Description of the presentation on individual slides:

1 slide

Description of the slide:

Practical work No. 3. Topic: Obtaining and properties of oxygen Purpose: Obtain oxygen (by the method of air displacement) and study its properties. Equipment: laboratory stand with foot or test tube holder; spirit lamp; two chemical glasses; glass plate; test tube; cork with a gas outlet tube; spoon for burning substances; matches; splinter; cotton wool Reagents: potassium permanganate (solid) KMnO4; coal C; lime water - Ca (OH) 2. Progress:

2 slide

Description of the slide:

Precautions: Working with a spirit lamp: Do not carry a burning spirit lamp from place to place. Extinguish the spirit lamp only with the cap. When heating, do not forget to warm the test tube. To do this, slowly pass the test tube fixed in the foot of the tripod through the flame from the bottom to the hole and back. Repeat this operation several times: so that the glass warms up evenly. The disappearance of fogging on the walls of the test tube can be considered as a sign of glass warming up. The bottom of the tube should be at the top of the flame. The bottom of the tube should not touch the wick.

3 slide

Description of the slide:

Precautions: Working with glass: Remember that hot glass appearance no different from cold. Do not touch the hot test tube. When fixing the test tube in the tripod leg, do not overtighten the screw. When heated, the glass expands and the test tube may crack

4 slide

Description of the slide:

Precautions: Checking the device for leaks: Close the test tube with a stopper with a gas outlet tube, lower the end of the tube into a glass of water. Grab the test tube tightly with your palm and watch closely for air bubbles.

5 slide

Description of the slide:

6 slide

Description of the slide:

1. Obtaining oxygen Oxygen (O 2) in the laboratory is obtained by decomposition of potassium permanganate KMnO 4 (potassium permanganate). For the experiment, you will need a test tube with a gas outlet tube. Pour crystalline potassium permanganate into a test tube. Prepare a flask to collect oxygen. When heated, potassium permanganate begins to decompose, the released oxygen enters the flask through the gas outlet tube. Oxygen is heavier than air, so it does not leave the flask and gradually fills it. A smoldering splinter flashes in the flask: it means that we managed to collect oxygen. 2 KMnO 4 \u003d K 2 MnO 4 + MnO 2 + O 2 Pure oxygen was first obtained independently by the Swedish chemist Scheele (during the calcination of saltpeter) and the English scientist Priestley (during the decomposition of mercury and lead oxides). Before their discovery, scientists believed that air was a homogeneous substance. After the discovery of Scheele and Priestley, Lavoisier created a theory of combustion and called new element Oxygenium (lat.) - giving rise to acid, oxygen. Oxygen is essential to sustain life. A person can survive without oxygen for only a few minutes. 2. Detection of oxygen Oxygen supports combustion - this property of oxygen is used to detect it 3. Combustion of coal in oxygen Oxygen actively interacts with many substances. Let's see how oxygen reacts with carbon. To do this, we heat a piece of coal on the flame of an alcohol lamp. In air, coal hardly smolders, because oxygen in the atmosphere is about twenty percent by volume. Charcoal is heated in a flask with oxygen. Carbon burning becomes intense. When carbon is burned, carbon dioxide is formed: C + O2 \u003d CO2 Let's add lime water to the flask with gas - it becomes cloudy. Lime water detects carbon dioxide. Remember how a dying fire is kindled. They blow on coals or fan them intensively in order to increase the supply of oxygen to the combustion zone.

Obtaining oxygen by the method of air displacement Attach the device to the foot of the tripod. 3. Lower the gas outlet tube into the glass, without touching the bottom, at a distance of 2 - 3 mm (Fig. 2). 1. Potassium permanganate (KMnO 4) place in a dry test tube. Place a loose ball of cotton wool at the opening of the test tube. 2. Close the test tube with a stopper with a gas outlet tube, check for tightness (Fig. 1).

4. Lower the gas outlet tube into the glass, without touching the bottom, at a distance of 2–3 mm (Fig. 2). 5. Warm up the substance in the test tube. (Remember safety regulations.) 6. Check for gas with a smoldering splinter (charcoal). What are you watching? Why can oxygen be collected by air displacement? 7. Collect the resulting oxygen in two flasks for the following experiments. Close the flasks with stoppers.

Obtaining oxygen by water displacement method 1. Fill a test tube with water. Close the tube with your thumb and turn it upside down. In this position, lower the hand with the test tube into the crystallizer with water. Bring a test tube to the end of the gas outlet tube without removing it from the water (Fig. 3). 2. When the oxygen has forced the water out of the tube, close it with your thumb and remove it from the water. Why can oxygen be collected by displacing water? Attention! Remove the gas outlet tube from the crystallizer without stopping heating the test tube with KMnO 4. If this is not done, the water will be thrown into the hot test tube. Why?

Combustion of coal in oxygen 1. Fix the coal on a metal wire (dissecting needle) and bring it into the flame of an alcohol lamp. 2. Lower the red-hot coal into the flask with oxygen. What are you watching? Give an explanation (Figure 4). 3. After removing the unburned coal from the flask, pour 5-6 drops of lime water Ca (OH) 2 into it. What do you observe? Give an explanation. 4. Issue a report on the work in the table. 1.

Combustion of steel (iron) wire in oxygen. Attach a piece of a match to one end of the steel wire. Light a match. Immerse the wire with the burning match into the flask with oxygen. What are you watching? Give an explanation (Figure 5). Prepare a report on the work in the table. 1.

Report on the work Performed operations (what was done) Drawings with the designations of the starting and received substances Observations. Reaction conditions. Reaction equations Explanations of observations. Conclusions Assembly of the device for obtaining oxygen. Checking the device for leaks Obtaining oxygen from KMnO 4 when heated Proof of obtaining oxygen using a smoldering splinter Characteristic physical properties O 2. Collection of O 2 by two methods: air displacement, water displacement Characteristics of the chemical properties of O 2. Interaction with simple substances: coal combustion, iron combustion (steel wire, paper clip)

Report on the work Performed operations (what was done) Drawings with the designations of the starting and received substances Observations. Reaction conditions. Reaction equations Explanations of observations. Conclusions Assembly of the device for obtaining oxygen. Obtaining oxygen from KMnO 4 Proof of obtaining oxygen Physical St. Collection of O 2 Chemical properties of O 2

Plan - lesson summary

Item: Chemistry

Class: 8

Textbook: Chemistry: Inorganic Chemistry. 8th grade. Rudzitis G. E., Feldman F. G.

Lesson topic: "Obtaining oxygen and studying its properties"

Target - to consolidate and improve students' knowledge of the main methods of obtaining oxygen in the laboratory and to study its properties.

Tasks:

Educational :

to study the methods of obtaining oxygen (by the method of displacing air and the method of displacing water), its physical and chemical properties;

educators :

develop the horizons of students;

independence, accuracy, diligence, cooperation, observation,develop a respectful attitudeTo flora, since plants are producers of oxygen;

Educational :

ability to write equations of chemical reactions;

compliance with safety regulations during chemical experiments;

the ability to draw conclusions.

Lesson type: Lesson of improvement and application of knowledge (practical work).

Necessary equipment and reagents: a laboratory stand with test tubes, a cork with a gas outlet tube, a flat-bottomed flask, spoons for burning substances (with a cork), a burner and matches, torches, a crystallizer with water, a glass plate; potassium permanganateKMnO 4, coal C (powder), lime waterCa( Oh) 2 .

The main stages of the lesson:

1.

2. Introduction (10 min)

3. Main part (20 min)

4. Final part (13 min).

The main stages of the lesson, time

Methods

Content educational material, teacher activity

The content of educational material, student activities

Note

Organizational part (2 min)

Greetings students. I mark those who are absent. Checking readiness for the lesson.

Welcome the teacher. The headman calls those who are absent.

Introduction (10 min)

Conversation

The purpose of today's lesson is to obtain oxygen in the laboratory by displacing air, and to study its physical and chemical properties.

Before starting the practical work, the teacher should familiarize the students with the safety rules (see Appendix 1).

Then the teacher shows how to properly assemble and use the oxygen device.

A device for collecting oxygen by the method of air displacement.

During the assembly of the device, the teacher asks the following questions to the students:

1. Why is the oxygen collection cup upside down and not upside down? Explain?

2. List the physical properties of oxygen? Can oxygen be liquid or solid?

3. How to prove that there is oxygen in the glass?

Students listen carefully to the safety rules. Ask questions about work. Write down the rules in a notebook.

Students sketch the device, they must indicate in the figure: a tripod, a test tube with potassium permanganate, a burner, a glass.

Answers on questions:

1. Oxygen is heavier than air. At n. y. 1 liter of oxygen weighs 1.43 g, and air 1.29 g.

2. Oxygen is a colorless gas, odorless and tasteless, sparingly soluble in water, heavier than air. At a pressure of 760 mm. rt. Art. and temperature - 183° With oxygen liquefies, and when the temperature drops to - 218.8° C solidifies.

3. You can prove the presence of oxygen in a glass using a splinter.

Main part (20 min)

student experiment

After the teacher explained the rules for assembling the device, he divides the students into groups and distributes cards - instructions (see Appendix 2).

The teacher during practical work observes the correctness of the implementation of techniques and operations by students.

Students read cards - instructions for practical work, ask questions if the progress of practical work is not clear.

After getting acquainted with the map - instructions, the students begin to perform practical work.

After the experiments, the students fill out the final report and draw a general conclusion.

The teacher can show the report on a separate slide or include it in the instruction card.

Final part (13 min)

Independent work

The teacher at the end of the lesson distributes to the students demonstration cards with independent work (see Appendix 3).

Perform independent work in notebooks for independent / control works. Hand over notebooks to the teacher.

In task 4, students are divided into 3 options, for each option there is a corresponding task.

Lesson summary appendix

Annex 1. Safety regulations.
Handle chemical equipment with care!
Remember! The test tube is heated, holding it in an inclined position, along its entire length with two or three movements in the flame of an alcohol lamp. When heating, point the opening of the test tube away from yourself and your neighbors.

Extinguish the spirit lamp only with the cap (a).
It is forbidden to light one spirit lamp with another (b).
It is forbidden to transfer the spirit lamp in a lit form (c).
It is forbidden to taste the substance (g).
Work should be carried out only on the table (d).

Annex 2. Map - instructions for the practical work "Obtaining oxygen and studying its properties"

Target - teach how to use laboratory equipment and utensils for receiving, collecting and proving the presence of oxygen, observe safety regulations.

In this work, you will study one of the laboratory methods for obtaining oxygen and its properties. Explain the role of the catalyst. Improve the ability to work with devices. To learn how to collect oxygen in various ways, to form the skills of heating and using heating devices, observing the safety rules when working with heating devices, when heating, when assembling devices.

Equipment

Reagents

Laboratory rack with test tubes

Stopper with gas pipe

Flat-bottomed flask

Spoons for burning substances (with cork)

Burner and matches, splinter

Crystallizer with water

glass plate

Potassium permanganateKMnO 4

Hydrogen peroxide (20% - ny)H 2 O 2

manganese oxide (IV) MNO 2

Coal (powder)

Sulfur (powder)

Phosphorus red

Iron wire (or needle)

Task 1. Checking the device for leaks.

Task 2. Obtaining oxygen by heating potassium permanganate

1. Air displacement

Heat the test tube with the flame of the spirit lamp (evenly moving the flame of the spirit lamp along the test tube); put a spirit lamp under the part where potassium permanganate is located.

Collect oxygen by forcing air out of the beaker.

Check if the glass is filled with oxygen: bring a smoldering splinter to the hole in the glass.

2. Collecting oxygen "above the water"

Remove the gas outlet tube from the beaker of water without stopping the heating of the test tube with potassium permanganate, otherwise the water from the beaker may be thrown into the red-hot test tube!

3. Combustion of coal in oxygen. Evidence of presence CO 2

Submit a work report:

Operations in progress
(what they were doing)

Observations. Conditions
carrying out reactions.
Reaction equations

Explanations of observations. conclusions

Assembly of the device for obtaining oxygen. Checking the device for leaks

Obtaining oxygen
from KMnO 4 when heated

Proof of oxygen production with
smoldering splinter

Characteristics of the physical properties of O 2 . Picking up Oh 2 by two methods:
air displacement,
water displacement

Characteristic
chemical properties 2 . Interaction
with simple substances
burning coal.

CONCLUSION: _________________________________________________________

Sample Practice Report

Operations in progress
(what they were doing)

Figures with designations of initial and received substances

Observations.
Conditions
carrying out reactions. Reaction equations

Explanations of observations.
conclusions

Assembly of the device for obtaining oxygen.
Checking the device for leaks

Air bubbles are released

The device is sealed

Obtaining oxygen from KMnO 4
when heated

When KMnO is heated 4 reaction takes place:

ABOUT 2 obtained in the laboratory by decomposition of KMnO 4 when heated

Proof of obtaining oxygen by means of
smoldering splinter

smoldering splinter
(charcoal) lights up brightly
in O 2

Received gas O 2 supports combustion

Characteristic
physical properties 2 . Picking up Oh 2 by two methods:
air displacement (a),
water displacement (b)

Oxygen displaces air and water from vessels

Oxygen is a colorless and odorless gas
slightly heavier than air, so
it is collected in a vessel placed on the bottom. Oxygen is slightly soluble in water

Characteristics of the chemical properties of O 2 . Interaction with simple substances: combustion of coal.

A hot ember burns brightly in O 2 :

Lime water becomes cloudy, because a water-insoluble precipitate of CaCO is formed 3 :
SO 2 + Ca(OH) 2 CaCO 3 + H 2 Oh

ABOUT 2 interacts
with simple
substances - metals and non-metals. The formation of a white precipitate confirms the presence of CO in the flask. 2

CONCLUSION: One of the ways to obtain oxygen in the laboratory is the decomposition of KMnO 4 . Oxygen is a colorless and odorless gas, 1.103 times heavier than air (M r (O 2 ) = 32, M r (air) \u003d 29, which implies 32/291.103), slightly soluble in water. It reacts with simple substances, forming oxides.

Appendix 3 Card for independent work(Demonstration card).

1) Fill in the gaps in the table:

Name of experience

Reaction equation, flow conditions

Observation

1. Receipt O 2 from KMnO 4

…KMnO 4 K 2 MNO 4 +MnO 2 +O 2 

When heatedKMnO4stands out ___________ .

2. Oxygen recognition

____________

When making ________ torch into a glass (flask) withO 2 she ________________.

3. Physical properties O 2

_____________

At room temperatureO 2 is in ___________ condition.O 2 __________________ air.

(lighter / heavier )

4. Burning coal in O 2

WITH + O 2  …

Coal burns inO 2 more ___________ than in the air.

5. Study of the combustion product in O 2

… + Ca(OH) 2  … + H 2 O

Lime water _________ than since when coal is burned inO 2 _________________ is formed.

2) Which of the physical properties can be attributed to oxygen (n.a.): lighter than air,heavier than air , solid, liquid,gas , colorless , green, blue, highly soluble in water,slightly soluble in water , electrically conductive, with a pungent odor, sweet, sour.

3) Complete the reaction schemes underlying the laboratory methods for obtaining oxygen. Arrange the coefficients:

A)H 2 O+

G)HgO hg +

4) Task 1: Determine which of the iron compounds is Fe 2 ABOUT 3 or Fe 3 ABOUT 4 – richer in iron?

Task 2: How many molecules are contained in 2.5 moles of oxygen?

Task 3: Determine the amount of substance and the number of molecules that make up 12 g of oxygen?

Bibliography:

1. Cards - instructions for practical classes in chemistry grades 8-11. T. S. Nazarova, V. N. Lavrova.

2. Workbook in chemistry grade 8. Guzey L. S.

3. Erygin D.P., Shishkin E.A. Methods for solving problems in chemistry: Proc. allowance for students ped. in-t on biol. and chem. specialist. – M.: Enlightenment, 1989.

4. KataevaL.G., Tolkacheva T.K.Cards- tasksByinorganicchemistry: 8 Class- 96 p.

5. Tasks in chemistry and ways to solve them Grade 8-9. Gabrielyan O.S.