Обучение по природни науки и върхови технологии
Вход / Регистрация

2017/1, стр. 90 - 102

ASSESSING LEVELS OF CO 2, CO, NO X AND SO 2 IN INDOOR AIR USING DRÄGER SENSORS: A CASE STADY IN PRISHTINA, KOSOVO

Shyqri Dumani
Fatbardh Gashi
E-mail: fatbardh_gashi@hotmail.com
Department of Chemistry
Faculty of Natural Sciences
University of Prishtina
10, Mather Teresa
10000 Prishtina, Kosovo
Naser Troni

Резюме: Studies in large cities revealed that indoor air pollution concentrations are at such levels where it can cause serious health impacts. The main source of the release of substances in the environment is the emission of gases (produced during the combustion process) such as carbon dioxide, carbon monoxide, sulphur oxides, nitrogen oxides, ammonia and others. In this study the assessment of indoor air quality in 26 places in Prishtina city were investigated and the main objective of this study was monitoring of the air quality through the determination of gases concentration of C02, C0, N0x and S02. Also the ratio of CO2/CO 2+CO was calculated. Concentrations of CO2, CO, SO2 and NOx were determined using “Dräger” instrument, model “X-am 7000 digital gas monitor”. Environmental risk assessment of air quality was done by comparing the obtained results with air WHO standards. During that period were found a permanent presence of some toxic gases in high concentrations in indoor areas. Results show that CO2 levels were ranged 300-4000 ppmv. The concentration of CO was ranged 0.6-17 ppmv and was reported to be under limits value in all locations. Also concentrations of SO2 and NOx (except air sample S6) were reported to be under WHO air limits value. According to gases concentration, many locations show values characteristic for highly and extremely contaminated indoor places.

Ключови думи: indoor air pollution, assessment, combustion process, sensors, biomass fuel

Introduction

Air quality is a very important for human health and the environment generally surrounding us, which is constantly under the influence of pollution. Buildings and other anthropogenic activities release heat and moisture that can increase the rate of reaction of pollutants, and buildings also act as surfaces for pollutants deposition. An increase in energy consumption may lead to more pollution generation as well (Rosenfeld et al., 1995; Chen & Kan, 2008). Well into the 21st century, 2.8 billion people still rely on solid fuels (wood, dung, crop wastes, charcoal, coal, etc.) and simple stoves for cooking and heating and 1.2 billion light their homes with simple kerosene lamps. Many studies show that these household energy practices result in very high levels of household air pollution. Global burden of disease estimates has found that exposure to household air pollution from cooking results in around 4 million premature deaths, with the most recent estimates from WHO reporting 4.3 million deaths for 2012. Indoor levels of many pollutants are often higher than those typically encountered outside, which would cause significant harmful health effects due to a long time period that people staying indoor. Klepeis et al. (2001) reported that people (in USA) may spend an average of 87 % of their time in enclosed buildings and approximately 6% of their time in enclosed vehicles. Tightly sealed buildings are an additional concern for the health of those who live and work inside. Skolnick (1989) reported that a population living in the tight energy efficient buildings contracted upper respiratory diseases at rates 46 to 50% higher than a compared group living in better ventilated houses. Indoor air pollution concentrations depend on a large number of factors such as indoor sources and the emission rates, air exchange rate, the penetration of outdoor pollutants into the indoor environment, and the pollutant sink or removal rate on indoor surfaces (Kamens et al., 1999; Thatcher & Layton, 1995; Beak et al., 1997). There are many types of household stoves for cooking and heating across the world. The major health impacts from household cook stoves, however, are experienced disproportionately in the developing world from solid fuel stoves, mainly biomass and coal, often in remote rural areas or urban slums. There is also increasing concern about the pollution from solid fuels, particularly wood, in household space-heating stoves and fireplaces in industrialized nations (WHO, 2014).

Wood fuel that is not properly burned to carbon dioxide is diverted into products of incomplete combustion – primarily carbon monoxide, but also benzene, butadiene, formaldehyde, poly aromatic hydrocarbons and many other compounds posing health hazards. The best single indicator of the health hazard of combustion smoke is thought to be small particles, which contain many chemicals (Smith, 1993). Cooking and heating with solid fuels (wood, charcoal, crop waste, dung, and coal) produces high levels of smoke in and around the home that contains a variety of health-damaging pollutants. There is strong evidence that exposure to household air pollution can lead to a wide range of child and adult disease outcomes, including acute and chronic respiratory conditions (e.g. pneumonia, chronic obstructive pulmonary disease), lung cancer, ischemic heart disease, stroke and cataract (WHO, 2016). There is also supporting evidence suggesting exposure to household air pollution is linked with adverse pregnancy outcomes, tuberculosis, upper aero-digestive tract, cervical and other cancers. An analysis of the pollutants originating from anthropogenic activities is crucial for formulating effective policies to reduce pollution and protect human health (Mavroidis & Ilia, 2012). Household use of solid fuels is thus estimated to be the largest single environmental risk factor and ranks sixth among all risk factors examined for ill-health (Smith et al., 2005). Burning biomass emits large amounts of pollutants, just like burning other solid fuels such as coal. Burning organic material emits particulate matter (PM), nitrogen oxides (NOx), carbon monoxide (CO), sulfur dioxide (SO2), lead, mercury, and other hazardous air pollutants (HAPs). Hazardous air pollutants (HAP) are a group of 187 toxics that according to EPA are known or suspected to cause cancer or other serious health effects, such as reproductive effects or birth defects, or adverse environmental effects (Air pollution/Partnership for Policy Integrity). Therefore, a series of guidelines relevant to typical indoor exposures is recommended as follows: 100 mgm-3 for 15 minutes and 35 mgm-3 for 1 hour (assuming light exercise and that such exposure levels do not occur more often than one per day); 10 mgm-3 for 8 hours (arithmetic mean concentration, light to moderate exercise); and 7 mgm-3 for 24 hours (WHO, 2010). Carbon monoxide is produced indoors by combustion sources (cooking and heating) and is also introduced through the infiltration of carbon monoxide from outdoor air into the indoor environment (WHU, 1999). In developed countries, the most important source of exposure to carbon monoxide in indoor air is emissions from faulty, incorrectly installed, poorly maintained or poorly ventilated cooking or heating appliances that burn fossil fuels. In homes in developing countries, the burning of biomass fuels and tobacco smoke are the most important sources of exposure to carbon monoxide. Combustion of low-grade solid fuel and biofuels in a small stove or fireplace can generate high carbon monoxide emissions, which may become lethal to occupants unless the flue gases are vented outdoors via a chimney throughout the entire combustion process. Carbon monoxide enters the body via inhalation and is diffused across the alveolar membrane with nearly the same ease as oxygen (O2). Carbon monoxide is first dissolved in blood, but is quickly bound to hemoglobin (Hb) to form COHb, which is measured as the percentage of hemoglobin so bound. The binding of carbon monoxide to hemoglobin occurs with nearly the same speed and ease as with which oxygen binds to hemoglobin, although the bond for carbon monoxide is about 245 times as strong as that for oxygen (Longo, 1970; Roughton, 1970). The previous WHO guidelines were established for 15 minutes to protect against short-term peak exposures that might occur from, for example, an unvented stove; for 1 hour to protect against excess exposure from, for example, faulty appliances; and for 8 hours (which is relevant to occupational exposures and has been used as an averaging time for ambient exposures).

Sulfur dioxide (SO2) exposure causes breathing difficulty for people with asthma, and is also implicated in regional haze and acid rain formation. A recent EPA risk assessment for SO2 concludes that definite health risks to asthmatics occur at concentrations significantly lower than the current 24-hour health standard for SO.2 The document further notes that over 20 million people in the USA have asthma and therefore, exposure to SO2 likely represents a significant health issue. The main sources of SO2 are fossil fuel combustion at power plants and industrial facilities. Along with its direct effects, SO2 also contributes to the formation of fine particulate matter. Controlled studies involving exercising asthmatics indicate that a proportion experience changes in pulmonary function and respiratory symptoms after periods of exposure to SO2 as short as 10 minutes. Based on this evidence, it is recommended that a SO2 concentration of 500 µgm-3 (0.176 ppmv) should not be exceeded over averaging periods of 10 minutes duration. Because short-term SO2 exposure depends very much on the nature of local sources and the prevailing meteorological conditions, it is not possible to apply a simple factor to this value in order to estimate corresponding guideline values over longer time periods, such as one hour (WHO, 2006).

Nitrogen dioxide (NO2) is the indicator species for the NOx group of gases, It primarily forms when fuels are burned at high temperatures. These acidic gases directly impact respiratory health, and also contribute to formation of ozone and condensable particulate matter. NOx reacts with ammonia, moisture, and other compounds to form nitric acid vapor and related particles. Small particles can penetrate deeply into sensitive lung tissue and damage it, causing premature death in extreme cases. Inhalation of such particles may cause or worsen respiratory diseases, such as emphysema or bronchitis, or may also aggravate existing heart disease. An one hour indoor nitrogen dioxide guideline of 200 µgm-3 (0.105ppmv), consistent with the existing WHO (2006) air quality guideline, is recommended.

Carbon dioxide is an asphyxiant gas and not classified as toxic or harmful in accordance with globally harmonized system of classification and labeling of chemicals standards of united nations economic commission for Europe by using the OECD guidelines for the testing of chemicals. In concentrations up to 1 % (10,000 ppm), it will make some people feel drowsy and give the lungs a stuffy feeling.1) Concentrations of 7-10 % (70,000-100,000 ppm) may cause suffocation, even in the presence of sufficient oxygen, manifesting as dizziness, headache, visual and hearing dysfunction, and unconsciousness within a few minutes to an hour. NOx is a generic term for the mono-nitrogen oxides NO and NO2.

The air quality monitoring network in Kosovo is being upgraded. The most part of the data from the monitoring of air quality are calculated by classical methods. An automatic station for air quality monitoring is located in the yard of the Hydro-meteorological Institute of Kosovo in Prishtina. In this station are monitored: particulate matter (PM10), SO2, NO2, NOx, CO and O3. Energy supply systems and fossil-fuel systems in particular, are dominant contributors to the emission of these gases. Data on air quality in Kosovo remains weak due to the lack of air quality monitoring network. Also still does not exist the inventory of polluters and is not designed the cadastre of air pollutants. As a result of this situation it cannot be talked authoritatively for the current level of air pollution and its quality. As the main sources of air pollution in Kosovo is considered the energy sector, traffic and heavy industry (State of envirinment in Kosovo 2008-2010 report, 2011). The aim of the current work was to assess indoor air pollution from burning of natural gas, coal and biomass fuels in Prishtina city.

Study area and sampling

Prishtina city has acquired pace in commercial and industrial activities and with the dense population load the city has been under stress due to increasing urbanization. According to the data given by the census of Kosovo (2011), the population of Prishtina was 198.214 and the area of Prishtina envisaged to be 572 sq. km. The city is situated between 42° 40′ 0″ N latitude and 21° 10′ 0″ E longitude at an average altitude of 652 meters above mean sea level.2) Measurement of emitted gasses in current concentration are included in stations (residential spaces and work spaces). Sampling instruments were placed in the main living/work area at a floor height 1.0-1.5 m Where possible, devices were placed at a distance of at least 1.0 m from windows, doors and the heating/cooking sources. The sampling was performed during May, 2012. We measured the indoor concentrations of CO2, CO, SO2 and NOxin 26 stations (household and business offices) in the city of Prishtina (south-western). We carried out the sampling was done once in the morning at each location for 1 hour (CO and NOx), 45 minutes (CO2) and 10 minutes (SO2 ). The purpose of our study was to estimate the personal exposure of residents to the indoor concentrations of CO2, CO, SO2 and NOx and to identify the indoor sources of these pollutants that affect their indoor levels. All indoor spaces were naturally ventilated without any air conditioning. The sampling location is shown in Fig. 1.

Concentrations of CO2, CO, SO2 and NO xwere determined using “Dräger” instrument, model “X-am 7000 digital gas monitor” (Fig. 2). Dräger “X-am 7000” is the solution for the simultaneous and continuous measurement of up to five gases. It is the ideal companion in a variety of applications where the reliable detection of oxygen, toxic and combustible gases and vapors are necessary. The extensive portfolio of over 25 different Dräger sensors enables the detection of more than 100 gases and vapors. The Dräger “X-am 7000” can be equipped with three electrochemical, and two catalytic bead, infrared or photo ionization sensors. During operation, it is also possible with the catalytic-ex sensor to change the gas being measuring or the measurement range of the sensor. In this way, the instrument can be easily adapted to various applications. Dräger sensors are renowned for their fast response time, minor cross sensitivities, high level of accuracy and long lifetimes. In addition to the electrochemical sensors, the catalytic, infrared and photo ionization sensors are automatically recognized by the instrument upon insertion. All sensors are pre-calibrated and therefore a reconfiguration of the Dräger X-am 7000 can be done by simply changing the sensor. Measurment ranges of CO2 were up to 5.0 % (vol.), of CO 500 ppmv, NOx 20 ppmv and SO220 ppmv. Program Statistica 6.03) was used for the statistical calculations in this work, such as descriptive statistics

Fig. 1. Sampling location in Prishtina

and two dimensional box plot diagrams for determination of anomalies (extremes and outliers) for solution data.

Fig. 2. Dräger gas detector, model “X-am 7000 digital gas monitor”

Results and discussion

Air pollution status

Mean values of gases concentrations (CO2, CO, SO 2 and NOx and ratio of CO2/ CO2+CO) in 26 air samples is presented in Table 1 and the distribution of CO2, CO, SO2 and NOx and ratio of CO2/CO2+CO is presented in Figs. 3 and 4. The Descriptive statistics summary of the selected variables are presented in Table 2. For each variable, the values are given as arithmetic mean, geometric mean, median, minimum and maximum concentration, variance and standard deviation. Frequency distributions and box-whiskers plot of 3 measured variables are presented in Fig. 3. Using experimental data (Table 1) and box plot approach of Tukey (1977), anomalous values (extremes and outliers) of 5 variables were determinate (Table 3).

Table 1. Average value of CO2, CO, ratio of CO2/CO2+CO, SO 2 and NOx

SampleFuel typeCO2/ppmvCO/ppmvRatioCO2/CO2+COSO2/ppmvNOx/ppmvWHOstandard1000(in 45 min.)30.03(in 1hour)0.176(in 10min.)0.105(in 1hour)S1Natural gas2400170.993<0.1<0.1S2Natural140050.9965<0.1<0.1S3Natural gas80040.995<0.1<0.1S4Natural gas100050.995<0.1<0.1S5Natural gas170030.998<0.1<0.1S6Natural gas4000120.9970.70.8S7Natural gas120050.9958<0.1<0.1S8Natural gas, wood andcoal(business locations, grill)1800170.9906<0.1<0.1S9Natural gas220070.9968<0.1<0.1S10Natural gas120040.9968<0.1<0.1S11Wood and coal110030.9973<0.1<0.1S12Wood and coal120020.9983<0.1<0.1S13Wood11100.60.9994<0.1<0.1S14Wood110030.9946<0.1<0.1S15Wood80030.9963<0.1<0.1S16Wood230020.9991<0.1<0.1S17Wood and coal50020.996<0.1<0.1S18Electrical power heating15000-<0.1<0.1S19Electrical power heating(business locations, grill)30020.9934<0.1<0.1
S20Electrical power heating(business locations)120030.9975<0.1<0.1S21Electrical power heating70020.9971<0.1<0.1S22Electrical power heating70030.9957<0.1<0.1S23Electrical power heating80020.9975<0.1<0.1S24Electrical power heating140070.995<0.1<0.1S25Electrical power heating60020.9967<0.1<0.1S26Natural gas, wood andcoal, oil.70020.99715<0.1<0.1Table 2.Basic statistical parameters of 5 variables at 26 air stationsVariableUnitDescriptive statisticsMeanGeo. MeanMedianMinimumMaximumVarianceStd. Dev.CO2ppmv1296.5381120.4431155.000300.00004000.000599431.5774.2296COppmv4.7040003.4931483.0000000.60000017.0000019.173734.378782Ratio, CO2/CO2+CO-0.9962220.9962200.9967000.9906000.9994000.0000040.001948SO2ppmv0.7000000.7000000.7000000.7000000.7000--NOxppmv0.8000000.8000000.8000000.8000000.8000--

Fig. 3. Mean values of gases (CO2, CO, SO2 and NOx) at 26 indoor air stations

Fig. 4. Ratio of CO2/CO2+CO in 26 indoor air samples

The results revealed the 45 minutes concentration of CO2 at 20° C were found to be in the range of 300-4000 ppmv with an average of 1296.54 ppmv. Our results show that significantly high values of CO2 in most indoor air samples exceed allowable WHO limit value, as higher influence of the indoor pollution sources from burned of soil gas, coal and biomass fuels. 1 hour concentration of CO at 20° C does not exceed WHO permissible limits of 30.03 ppmv. CO concentrations found to be in the range of 0.6-17 ppmv and with an average concentration of 4.704 ppmv. 10 minutes concentrations of SO2 at 20° C were registered and only air sample station S6 found to be 0.7 ppmv and exceed 0.176 ppmv of WHO permissible limit, as higher influence of the indoor pollution sources from (haushold) heating with burning of natural gas. Also, 1 hour concentrations of NOx at 20° C were registered and only air sample station S6 found to be 0.8 ppmv (produced during combustion from the reaction among nitrogen, oxygen and even hydrocarbons, especially at high temperatures) and exceed 0.105 ppmv WHO air permissible limit. The results for ratio of CO2/CO2+CO in 26 indoor air samples were found to be in the range of 0.9906-0.9994. The highest value of ratio was registered in the air sample station S13. The lowest value of ratio was registered in the air sample station S8, as higher influence of the indoor pollution sources from incomplete combustion of biomass fuels.

Based on the frequency histograms and the two dimensional scatter box plot diagrams (Fig. 5) anomalous values (extremes and outliers) were registered in Table 3. In samples S1 and S8 extreme value of carbon monoxide was registered. In the sample S6 extreme value of carbon dioxide was registered. In the S8 outlier value of the ratio of CO2/CO2+CO was registered. The present study suggests that it is necessary to monitor the air quality as well as the health effects at regular intervals and at strategic locations and that there is a need for better space ventilation.

Table 3. Anomalous values (extremes and outliers) determined in air samples

Air sampleExtremes of parameters(¤)Outliers of parameters(o)S1CO (17 ppmv)No reg.S6CO2(4000 ppmv)CO (12 ppmv)S8CO (17ppmv)The ratio of CO2/CO2+CO

Conclusions

Unprocessed coal that has not been treated by chemical, physical, or thermal means to reduce contaminants should not be used as a household fuel. Three reasons guide this recommendation, over and above the documented health risks from products of incomplete combustion of solid fuels: the International Agency for Research on Cancer has concluded that indoor emissions from household combustion of coal are carcinogenic; in those parts of the world where it is most extensively used as a household fuel and the evidence base is strongest, coal contains toxic elements, such as arsenic, lead and mercury, which are not destroyed by combustion and technical constraints make it difficult to burn coal cleanly in households. Regarding to concentrations of CO2, especially in station S6, values are characteristic for highly and extremely contaminated indoor spaces as in most stations the WHO permissible limits are exceeded. Station S6 has also higher concentration of SO2 and NOX that are exceeding the WHO permissible limit. We recommend better indoor air ventilation and using of the central heating system for heating purpose in cases where this is possible. Also, to obtain a better information regarding indoor air quality in Prishtina, it is necessary to conduct a more extensive research that include more compounds, and to assess the risks for human health, primarily those carcinogens.

Fig. 5. Frequency histograms and scatter box plot diagrams of 2 measured variables and their ratio

Acknowledgements. The study was financially supported by the University of Prishtina. Dr. Glenda Hejrović, Dr Halka Bilinski and Stanislav FrančiškovićBilinski from Institute „Ruđer Bošković“ in Zagreb (Croatia), are thanked for useful discussions and for participation in this work. Colleagues from the Department of Chemistry, University of Prishtina and from the Occupational Health, Institute in Kastriot (Kosova), are thanked for their assistance.

NOTES

1.http://copublications.greenfacts.org/en/indoor-air-pollution/l-2/1-risk-assessment.htm

2. https://en.wikipedia.org/wiki/Pristina

3. http://www.statsoft.com

REFERENCES

Beak, S.-O., Kim, Y.-S. & Perry, R. (1997). Indoor air quality in homes, offices and restaurants in Korean urban areas – indoor/outdoor relationship. Atm. Environ., 31, 529 – 544.

Chen, B. & Kan, H. (2008). Air pollution and population health: a global challenge. Environ. Health Prev. Med., 13(2), 94 – 10.

Kamens, R., Lee, C.-t., Weiner, R. & Leith, D. (1999). A study to characterize indoor particles in three non-smoking homes. Atm. Environ. A, 25, 939 – 943.

Klepeis, N.E., Nelson, W.C., Robinson, J.P., Tsang, A.M., Switzer, P., Behar, J.V., Hern, S.C. & Engelmann, W.H. (2001). The national human activity pattern survey (NHAPS): a resource for assessing exposure to environment pollutants. J. Exposure Analysis & Environ. Epidemiology, 11, 231 – 252.

Longo, L.D. (1970). Carbon monoxide in the pregnant mother and fetus and its exchange across the placenta. Ann. New York Acad. Sci., 174, 312 – 341.

Mavroidis, I. & Ilia, M. (2012). Trends of NO,x NO2and O3 concentrations at three different types of air quality monitoring stations in Athens, Greece. Atm. Environ.,63, 35 – 147.

Rosenfeld, A.H., Akbari, H., Romm, J.J. & Pomerantz, M. (1995). Cool communities: strategies for heat island mitigation and smog reduction. Energy & Buildings, 28, 51 – 62.

Roughton, F.J. (1970). The equilibrium of carbon monoxide with human hemoglobin in whole blood. Ann. New York Acad. Sci., 174, 177 – 188.

Skolnick, A. (1989). Even air in the home is not entirely free of potential pollutants. J. Amer. Med. Assoc., 262, 3102 – 3103.

Smith, K.R. (1993). Fuel combustion, air pollution exposure, and health: the situation in developing countries. Ann. Rev. Energy & Environment, 18, 529 – 566.

Smith, K.R., Rogers, J. & Cowlin, S.C. (2005). Household fuels and illhealth in developing countries: what improvements can be brought by LP gas. Paris: World LP Gas Association and Intermediate Technology Development Group.

Thatcher, T.L. & Layton, D.W. (1995). Deposition resuspension and penetration of penetration of particles within a residence. Atm. Environ., 29, 1487 – 1497.

Tukey, J.W. (1977). Exploratory data analysis. Boston: Addison–Wesley.

WHU [World Health Organization]. (1999). International programme on chemical safety: carbon monoxide. Geneva: World Health Organization.

WHU [World Health Organization]. (2006). Air quality guidelines for particulate matter, ozone, nitrogen dioxide and sulfur dioxide. Geneva: World Health Organization.

WHU [World Health Organization]. (2010). Guidelines for indoor air quality: selected pollutants. Geneva: World Health Organization.

WHU [World Health Organization]. (2014). Guidelines for indoor air quality: household fuel combustion. Geneva: World Health Organization.

WHU [World Health Organization]. (2016). Guidelines for indoor air quality: health impacts. Geneva: World Health Organization.

2025 година
Книжка 4
Книжка 3
ПРАЗНИК НА ХИМИЯТА 2025

Александра Камушева, Златина Златанова

ФАТАЛНИЯТ 13

Гинчо Гичев, Росица Стефанова

ХИМИЯ НА МЕДОВИНАТА

Габриела Иванова, Галя Аралова-Атанасова

Х ИМ ИЯ НА Б АНКНОТИТЕ И МОНЕТИТЕ

Ивайло Борисов, Мая Ганева

АЛУМИНИЙ – „ЩАСТЛИВИЯТ“ 13-И ЕЛЕМЕНТ

Мария Кирилова, Ралица Ранчова

МЕТАЛЪТ НА ВРЕМЕТО

Християна Христова, Мария Стойнова

СЛАДКА ЛИ Е ФРЕНСКАТА ЛУЧЕНА СУПА?

Женя Петрова, Мими Димова

ПАРИТЕ – ИСТОРИЯ И НЕОБХОДИМОСТ

Мария Александрова, Румяна Стойнева

АЛУМИНИЯТ – ОТ ОТПАДЪК ДО РЕСУРС

Стилян Атанасов, Никола Иванов, Галина Кирова

ТАЙНАТА ХИМИЯ НА ШВЕЙЦАРСКИТЕ БАНКНОТИ

Ивайла Николова, Марияна Георгиева

ХИМИЯТА – ДЕТЕКТИВ ИЛИ ПРЕСТЪПНИК?

Алвина Илин, Валентина Ткачова, Петя Петрова

БЕБЕШКИ ШАМПОАН ОТ ЯДЛИВИ СЪСТАВКИ: ФОРМУЛИРАНЕ НА НОВ КОЗМЕТИЧЕН ПРОДУКТ

Хана Крипендорф, 5, Даниел Кунев, 5, Цветелина Стоянова

БЪЛГАРСКОТО ИМЕ НА ДЪЛГОЛЕТИЕТО

Сияна Краишникова, Анелия Иванова

ХИМИЯ НА МОНЕТИТЕ

Кристина Анкова, Сияна Христова, Ростислава Цанева

ХИМИЯ НА ШОКОЛАДА

Камелия Вунчева, Мария-Сара Мандил, Марияна Георгиева

ХИМИЯТА НА ПАРИТЕ

Биляна Куртева, Ралица Ранчова

АЛУМИНИЯТ В КРИОГЕНИКАТА

Даниел Анков, Ива Петкова, Марияна Георгиева

ПРИЛОЖЕНИЕ НА АЛУМИНИЯ ВЪВ ВАКСИНИТЕ

Станислав Милчев, Петя Вълкова

АЛУМИНИЙ: „КРИЛА НА ЧОВЕЧЕСТВОТО – ЛЮБИМЕЦ 13“

Ростислав Стойков, Пепа Георгиева

ХИМИЯТА В ПЧЕЛНИЯ МЕД

Сиана Каракашева, Симона Тричкова, Майя Найденова-Георгиева

ХИМИЯ НА МЛЕЧНИТЕ ПРОДУКТИ

Пламена Боиклиева, 10 клас, Дафинка Юрчиева

ХИМИЯ В МАСЛИНИТЕ

Симона Гочева, Майя Найденова

ХИМИЯ НА ЛЮТОТО

Марта Пенчева, Васка Сотирова

ХИНАП – ИЗСЛЕДВАНЕ НА СЪДЪРЖАНИЕТО НА ВИТАМИН С

Елица Нейкова, Елисавета Григорова, Майя Найденова

ХИМИЯ НA ПAРИТE

Игликa Кoлeвa, Eмилия Ивaнoвa

ВЛИЯНИЕ НА МАРИНАТИТЕ ВЪРХУ МЕСОТО

Емил Мирчев, Галя Петрова

АНАЛИЗ НА ПРИРОДНИ ВОДИ В ОБЩИНА СЛИВЕН

Никола Урумов, Анелия Иванова

ТРИНАДЕСЕТИЯТ ЕЛЕМЕНТ – СПАСИТЕЛ ИЛИ ТИХ РАЗРУШИТЕЛ?

Виктория Дечкова, Никола Велчев, Нели Иванова

Книжка 2
Книжка 1
MATHEMATICAL MODELLING OF THE TRANSMISSION DYNAMICS OF PNEUMONIA AND MENINGITIS COINFECTION WITH VACCINATION

Deborah O. Daniel, Sefiu A. Onitilo, Omolade B. Benjamin, Ayoola A. Olasunkanmi

2024 година
Книжка 5-6
Книжка 3-4
Книжка 1-2
2023 година
Книжка 5-6
ПОДКАСТ – КОГА, АКО НЕ СЕГА?

Христо Чукурлиев

Книжка 3-4
Книжка 2
Книжка 1
2022 година
Книжка 6
METEOROLOGICAL DETERMINANTS OF COVID-19 DISEASE: A LITERATURE REVIEW

Z. Mateeva, E. Batchvarova, Z. Spasova, I. Ivanov, B. Kazakov, S. Matev, A. Simidchiev, A. Kitev

Книжка 5
MATHEMATICAL MODELLING OF THE TRANSMISSION MECHANISM OF PLAMODIUM FALCIPARUM

Onitilo S. A, Usman M. A., Daniel D. O. Odetunde O. S., Ogunwobi Z. O., Hammed F. A., Olubanwo O. O., Ajani A. S., Sanusi A. S., Haruna A. H.

ПОСТАНОВКА ЗА ИЗМЕРВАНЕ СКОРОСТТА НА ЗВУКА ВЪВ ВЪЗДУХ

Станислав Сланев, Хафизе Шабан, Шебнем Шабан, Анета Маринова

Книжка 4
MAGNETIC PROPERTIES

Sofija Blagojević, Lana Vujanović, Andreana Kovačević Ćurić

„TAP, TAP WATER“ QUANTUM TUNNELING DEMONSTRATION

Katarina Borković, Andreana Kovačević Ćurić

Книжка 3
Книжка 2
КОМЕТИТЕ – I ЧАСТ

Пенчо Маркишки

Книжка 1
DISTANCE LEARNING: HOMEMADE COLLOIDAL SILVER

Ana Sofía Covarrubias-Montero, Jorge G. Ibanez

2021 година
Книжка 6
STUDY OF COMPOSITIONS FOR SELECTIVE WATER ISOLATION IN GAS WELLS

Al-Obaidi S.H., Hofmann M., Smirnov V.I., Khalaf F.H., Alwan H.H.

Книжка 5
POTENTIAL APPLICATIONS OF ANTIBACTERIAL COMPOUNDS IN EDIBLE COATING AS FISH PRESERVATIVE

Maulidan Firdaus, Desy Nila Rahmana, Diah Fitri Carolina, Nisrina Rahma Firdausi, Zulfaa Afiifah, Berlian Ayu Rismawati Sugiarto

Книжка 4
Книжка 3
Книжка 2
INVESTIGATION OF 238U, 234U AND 210PO CONTENT IN SELECTED BULGARIAN DRINKING WATER

Bozhidar Slavchev, Elena Geleva, Blagorodka Veleva, Hristo Protohristov, Lyuben Dobrev, Desislava Dimitrova, Vladimir Bashev, Dimitar Tonev

Книжка 1
DEMONSTRATION OF DAMPED ELECTRICAL OSCILLATIONS

Elena Grebenakova, Stojan Manolev

2020 година
Книжка 6
ДОЦ. Д-Р МАРЧЕЛ КОСТОВ КОСТОВ ЖИВОТ И ТВОРЧЕСТВО

Здравка Костова, Елена Георгиева

Книжка 5
Книжка 4
JACOB’S LADDER FOR THE PHYSICS CLASSROOM

Kristijan Shishkoski, Vera Zoroska

КАЛЦИЙ, ФОСФОР И ДРУГИ ФАКТОРИ ЗА КОСТНО ЗДРАВЕ

Радка Томова, Светла Асенова, Павлина Косева

Книжка 3
MATHEMATICAL MODELING OF 2019 NOVEL CORONAVIRUS (2019 – NCOV) PANDEMIC IN NIGERIA

Sefiu A. Onitilo, Mustapha A. Usman, Olutunde S. Odetunde, Fatai A. Hammed, Zacheous O. Ogunwobi, Hammed A. Haruna, Deborah O. Daniel

Книжка 2

Книжка 1
WATER PURIFICATION WITH LASER RADIATION

Lyubomir Lazov, Hristina Deneva, Galina Gencheva

2019 година
Книжка 6
LASER MICRO-PERFORATION AND FIELDS OF APPLICATION

Hristina Deneva, Lyubomir Lazov, Edmunds Teirumnieks

ПРОЦЕСЪТ ДИФУЗИЯ – ОСНОВА НА ДИАЛИЗАТА

Берна Сабит, Джемиле Дервиш, Мая Никова, Йорданка Енева

IN VITRO EVALUATION OF THE ANTIOXIDANT PROPERTIES OF OLIVE LEAF EXTRACTS – CAPSULES VERSUS POWDER

Hugo Saint-James, Gergana Bekova, Zhanina Guberkova, Nadya Hristova-Avakumova, Liliya Atanasova, Svobodan Alexandrov, Trayko Traykov, Vera Hadjimitova

Бележки върху нормативното осигуряване на оценяването в процеса

БЕЛЕЖКИ ВЪРХУ НОРМАТИВНОТО ОСИГУРЯВАНЕ, НА ОЦЕНЯВАНЕТО В ПРОЦЕСА НА ОБУЧЕНИЕТО

ТЕХНОЛОГИЯ

Б. В. Тошев

Книжка 5
ON THE GENETIC TIES BETWEEN EUROPEAN NATIONS

Jordan Tabov, Nevena Sabeva-Koleva, Georgi Gachev

Иван Странски – майсторът на кристалния растеж [Ivan Stranski

ИВАН СТРАНСКИ – МАЙСТОРЪТ, НА КРИСТАЛНИЯ РАСТЕЖ

Книжка 4

CHEMOMETRIC ANALYSIS OF SCHOOL LIFE IN VARNA

Radka Tomova, Petinka Galcheva, Ivajlo Trajkov, Antoaneta Hineva, Stela Grigorova, Rumyana Slavova, Miglena Slavova

ЦИКЛИТЕ НА КРЕБС

Ивелин Кулев

Книжка 3
ПРИНЦИПИТЕ НА КАРИЕРНОТО РАЗВИТИЕ НА МЛАДИЯ УЧЕН

И. Панчева, М. Недялкова, С. Кирилова, П. Петков, В. Симеонов

UTILISATION OF THE STATIC EVANS METHOD TO MEASURE MAGNETIC SUSCEPTIBILITIES OF TRANSITION METAL ACETYLACETONATE COMPLEXES AS PART OF AN UNDERGRADUATE INORGANIC LABORATORY CLASS

Anton Dobzhenetskiy, Callum A. Gater, Alexander T. M. Wilcock, Stuart K. Langley, Rachel M. Brignall, David C. Williamson, Ryan E. Mewis

THE 100

Maria Atanassova, Radoslav Angelov

A TALE OF SEVEN SCIENTISTS

Scerri, E.R. (2016). A Tale of Seven Scientists and a New Philosophy of Science.

Книжка 2
DEVELOPMENT OF A LESSON PLAN ON THE TEACHING OF MODULE “WATER CONDUCTIVITY”

A. Thysiadou, S. Christoforidis, P. Giannakoudakis

AMPEROMETRIC NITRIC OXIDE SENSOR BASED ON MWCNT CHROMIUM(III) OXIDE NANOCOMPOSITE

Arsim Maloku, Epir Qeriqi, Liridon S. Berisha, Ilir Mazreku, Tahir Arbneshi, Kurt Kalcher

THE EFFECT OF AGING TIME ON Mg/Al HYDROTALCITES STRUCTURES

Eddy Heraldy, Triyono, Sri Juari Santosa, Karna Wijaya, Shogo Shimazu

Книжка 1
A CONTENT ANALYSIS OF THE RESULTS FROM THE STATE MATRICULATION EXAMINATION IN MATHEMATICS

Elena Karashtranova, Nikolay Karashtranov, Vladimir Vladimirov

SOME CONCEPTS FROM PROBABILITY AND STATISTICS AND OPPORTUNITIES TO INTEGRATE THEM IN TEACHING NATURAL SCIENCES

Elena Karashtranova, Nikolay Karashtranov, Nadezhda Borisova, Dafina Kostadinova

45. МЕЖДУНАРОДНА ОЛИМПИАДА ПО ХИМИЯ

Донка Ташева, Пенка Василева

2018 година
Книжка 6

ЗДРАВЕ И ОКОЛНА СРЕДА

Кадрие Шукри, Светлана Великова, Едис Мехмед

РОБОТИКА ЗА НАЧИНАЕЩИ ЕНТУСИАСТИ

Даниела Узунова, Борис Велковски, Илко Симеонов, Владислав Шабански, Димитър Колев

DESIGN AND DOCKING STUDIES OF HIS-LEU ANALOGUES AS POTENTIOAL ACE INHIBITORS

Rumen Georgiev, , Tatyana Dzimbova, Atanas Chapkanov

X-RAY DIFFRACTION STUDY OF M 2 Zn(TeО3)2 (M - Na, K) ТELLURIDE

Kenzhebek T. Rustembekov, Mitko Stoev, Aitolkyn A. Toibek

CALIBRATION OF GC/MS METHOD FOR DETERMINATION OF PHTHALATES

N. Dineva, I. Givechev, D. Tanev, D. Danalev

ELECTROSYNTHESIS OF CADMIUM SELENIDE NANOPARTICLES WITH SIMULTANEOUS EXTRACTION INTO P-XYLENE

S. S. Fomanyuk, V. O. Smilyk, G. Y. Kolbasov, I. A. Rusetskyi, T. A. Mirnaya

БИОЛОГИЧЕН АСПЕКТ НА РЕКАНАЛИЗАЦИЯ С ВЕНОЗНА ТРОМБОЛИЗА

Мариела Филипова, Даниела Попова, Стоян Везенков

CHEMISTRY: BULGARIAN JOURNAL OF SCIENCE EDUCATION ПРИРОДНИТЕ НАУКИ В ОБРАЗОВАНИЕТО VOLUME 27 / ГОДИНА XXVII, 2018 ГОДИШНО СЪДЪРЖАНИЕ СТРАНИЦИ / PAGES КНИЖКА 1 / NUMBER 1: 1 – 152 КНИЖКА 2 / NUMBER 2: 153 – 312 КНИЖКА 3 / NUMBER 3: 313 – 472 КНИЖКА 4 / NUMBER 4: 473 – 632 КНИЖКА 5 / NUMBER 5: 633 – 792 КНИЖКА 6 / NUMBER 6: 793 – 952 КНИЖКА 1 / NUMBER 1: 1 – 152 КНИЖКА 2 / NUMBER 2: 153 – 312 КНИЖКА

(South Africa), A. Ali, M. Bashir (Pakistan) 266 – 278: j-j Coupled Atomic Terms for Nonequivalent Electrons of (n-1)fx and nd1 Configurations and Correlation with L-S Terms / P. L. Meena (India) 760 – 770: Methyl, тhe Smallest Alkyl Group with Stunning Effects / S. Moulay 771 – 776: The Fourth State of Matter / R. Tsekov

Книжка 5
ИМОБИЛИЗИРАНЕНАФРУКТОЗИЛТРАНСФЕРАЗА ВЪРХУКОМПОЗИТНИФИЛМИОТПОЛИМЛЕЧНА КИСЕЛИНА, КСАНТАН И ХИТОЗАН

Илия Илиев, Тонка Василева, Веселин Биволарски, Ася Виранева, Иван Бодуров, Мария Марудова, Теменужка Йовчева

ELECTRICAL IMPEDANCE SPECTROSCOPY OF GRAPHENE-E7 LIQUID-CRYSTAL NANOCOMPOSITE

Todor Vlakhov, Yordan Marinov, Georgi. Hadjichristov, Alexander Petrov

ON THE POSSIBILITY TO ANALYZE AMBIENT NOISERECORDED BYAMOBILEDEVICETHROUGH THE H/V SPECTRAL RATIO TECHNIQUE

Dragomir Gospodinov, Delko Zlatanski, Boyko Ranguelov, Alexander Kandilarov

RHEOLOGICAL PROPERTIES OF BATTER FOR GLUTEN FREE BREAD

G. Zsivanovits, D. Iserliyska, M. Momchilova, M. Marudova

ПОЛУЧАВАНЕ НА ПОЛИЕЛЕКТРОЛИТНИ КОМПЛЕКСИ ОТ ХИТОЗАН И КАЗЕИН

Антоанета Маринова, Теменужка Йовчева, Ася Виранева, Иван Бодуров, Мария Марудова

CHEMILUMINESCENT AND PHOTOMETRIC DETERMINATION OF THE ANTIOXIDANT ACTIVITY OF COCOON EXTRACTS

Y. Evtimova, V. Mihailova, L. A. Atanasova, N. G. Hristova-Avakumova, M. V. Panayotov, V. A. Hadjimitova

ИЗСЛЕДОВАТЕЛСКИ ПРАКТИКУМ

Ивелина Димитрова, Гошо Гоев, Савина Георгиева, Цвета Цанова, Любомира Иванова, Борислав Георгиев

Книжка 4
PARAMETRIC INTERACTION OF OPTICAL PULSES IN NONLINEAR ISOTROPIC MEDIUM

A. Dakova, V. Slavchev, D. Dakova, L. Kovachev

ДЕЙСТВИЕ НА ГАМА-ЛЪЧИТЕ ВЪРХУ ДЕЗОКСИРИБОНУКЛЕИНОВАТА КИСЕЛИНА

Мирела Вачева, Хари Стефанов, Йоана Гвоздейкова, Йорданка Енева

RADIATION PROTECTION

Natasha Ivanova, Bistra Manusheva

СТАБИЛНОСТ НА ЕМУЛСИИ ОТ ТИПА МАСЛО/ ВОДА С КОНЮГИРАНА ЛИНОЛОВА КИСЕЛИНА

И. Милкова-Томова, Д. Бухалова, К. Николова, Й. Алексиева, И. Минчев, Г. Рунтолев

THE EFFECT OF EXTRA VIRGIN OLIVE OIL ON THE HUMAN BODY AND QUALITY CONTROL BY USING OPTICAL METHODS

Carsten Tottmann, Valentin Hedderich, Poli Radusheva, Krastena Nikolova

ИНФРАЧЕРВЕНА ТЕРМОГРАФИЯ ЗА ДИАГНОСТИКА НА ФОКАЛНА ИНФЕКЦИЯ

Рая Грозданова-Узунова, Тодор Узунов, Пепа Узунова

ЕЛЕКТРИЧНИ СВОЙСТВА НА КОМПОЗИТНИ ФИЛМИ ОТ ПОЛИМЛЕЧНА КИСЕЛИНА

Ася Виранева, Иван Бодуров, Теменужка Йовчева

Книжка 3
ТРИ ИДЕИ ЗА ЕФЕКТИВНО ОБУЧЕНИЕ

Гергана Карафезиева

МАГИЯТА НА ТВОРЧЕСТВОТО КАТО ПЪТ НА ЕСТЕСТВЕНО УЧЕНЕ В УЧЕБНИЯ ПРОЦЕС

Гергана Добрева, Жаклин Жекова, Михаела Чонос

ОБУЧЕНИЕ ПО ПРИРОДНИ НАУКИ ЧРЕЗ МИСЛОВНИ КАРТИ

Виолета Стоянова, Павлина Георгиева

ИГРА НА ДОМИНО В ЧАС ПО ФИЗИКА

Росица Кичукова, Ценка Маринова

ПРОБЛЕМИ ПРИ ОБУЧЕНИЕТО ПО ФИЗИКА ВЪВ ВВМУ „Н. Й. ВАПЦАРОВ“

А. Христова, Г. Вангелов, И. Ташев, М. Димидов

ИЗГРАЖДАНЕ НА СИСТЕМА ОТ УЧЕБНИ ИНТЕРНЕТ РЕСУРСИ ПО ФИЗИКА И ОЦЕНКА НА ДИДАКТИЧЕСКАТА ИМ СТОЙНОСТ

Желязка Райкова, Георги Вулджев, Наталия Монева, Нели Комсалова, Айше Наби

ИНОВАЦИИ В БОРБАТА С ТУМОРНИ ОБРАЗУВАНИЯ – ЛЕЧЕНИЕ ЧРЕЗ БРАХИТЕРАПИЯ

Георги Върбанов, Радостин Михайлов, Деница Симеонова, Йорданка Енева

NATURAL RADIONUCLIDES IN DRINKING WATER

Natasha Ivanova, Bistra Manusheva

Книжка 2

АДАПТИРАНЕ НА ОБРАЗОВАНИЕТО ДНЕС ЗА УТРЕШНИЯ ДЕН

И. Панчева, М. Недялкова, П. Петков, Х. Александров, В. Симеонов

STRUCTURAL ELUCIDATION OF UNKNOWNS: A SPECTROSCOPIC INVESTIGATION WITH AN EMPHASIS ON 1D AND 2D 1H NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY

Vittorio Caprio, Andrew S. McLachlan, Oliver B. Sutcliffe, David C. Williamson, Ryan E. Mewis

j-j Coupled Atomic Terms for Nonequivalent Electrons of (n-1)f

j-jCOUPLEDATOMICTERMSFORNONEQUIVALENT, ELECTRONS OF (n-f X nd CONFIGURATIONS AND, CORRELATION WITH L-S TERMS

INTEGRATED ENGINEERING EDUCATION: THE ROLE OF ANALYSIS OF STUDENTS’ NEEDS

Veselina Kolarski, Dancho Danalev, Senia Terzieva

Книжка 1
ZAGREB CONNECTION INDICES OF TiO2 NANOTUBES

Sohaib Khalid, Johan Kok, Akbar Ali, Mohsin Bashir

SYNTHESIS OF NEW 3-[(CHROMEN-3-YL)ETHYLIDENEAMINO]-PHENYL]-THIAZOLIDIN-4ONES AND THEIR ANTIBACTERIAL ACTIVITY

Ramiz Hoti, Naser Troni, Hamit Ismaili, Malesore Pllana, Musaj Pacarizi, Veprim Thaçi, Gjyle Mulliqi-Osmani

2017 година
Книжка 6
GEOECOLOGICAL ANALYSIS OF INDUSTRIAL CITIES: ON THE EXAMPLE OF AKTOBE AGGLOMERATION

Zharas Berdenov, Erbolat Mendibaev, Talgat Salihov, Kazhmurat Akhmedenov, Gulshat Ataeva

TECHNOGENESIS OF GEOECOLOGICAL SYSTEMS OF NORTHEN KAZAKHSTAN: PROGRESS, DEVELOPMENT AND EVOLUTION

Kulchichan Dzhanaleyeva, Gulnur Mazhitova, Altyn Zhanguzhina, Zharas Berdenov, Tursynkul Bazarbayeva, Emin Atasoy

СПИСАНИЕ ПРОСВѢТА

Списание „Просвета“ е орган на Просветния съюз в България. Списанието е излизало всеки месец без юли и август. Годишният том съдържа 1280 стра- ници. Списанието се издава от комитет, а главен редактор от 1935 до 1943 г. е проф. Петър Мутафчиев, историк византолог и специалист по средновеков-

Книжка 5
47-А НАЦИОНАЛНА КОНФЕРЕНЦИЯ НА УЧИТЕЛИТЕ ПО ХИМИЯ

В последните години тези традиционни за българското учителство конфе- ренции се организират от Българското дружество по химическо образование и история и философия на химията. То е асоцииран член на Съюза на химици- те в България, който пък е член на Европейската асоциация на химическите и

JOURNALS OF INTEREST: A REVIEW (2016)

BULGARIAN JOURNAL OF SCIENCE AND EDUCATION POLICY ISSN 1313-1958 (print) ISSN 1313-9118 (online) http://bjsep.org

INVESTIGATING THE ABILITY OF 8

Marina Stojanovska, Vladimir M. Petruševski

SYNTHESIS OF TiO -M (Cd, Co, Mn)

Candra Purnawan, Sayekti Wahyuningsih, Dwita Nur Aisyah

EFFECT OF DIFFERENT CADMIUM CONCENTRATION ON SOME BIOCHEMICAL PARAMETERS IN ‘ISA BROWN’ HYBRID CHICKEN

Imer Haziri, Adem Rama, Fatgzim Latifi, Dorjana Beqiraj-Kalamishi, Ibrahim Mehmeti, Arben Haziri

PHYTOCHEMICAL AND IN VITRO ANTIOXIDANT STUDIES OF PRIMULA VERIS (L.) GROWING WILD IN KOSOVO

Ibrahim Rudhani, Florentina Raci, Hamide Ibrahimi, Arben Mehmeti, Ariana Kameri, Fatmir Faiku, Majlinda Daci, Sevdije Govori, Arben Haziri

ПЕДАГОГИЧЕСКА ПОЕМА

Преди година-две заедно с директора на Националното издателство „Аз- буки“ д-р Надя Кантарева-Барух посетихме няколко училища в Родопите. В едно от тях ни посрещнаха в голямата учителска стая. По стените ѝ имаше големи портрети на видни педагози, а под тях – художествено написани умни мисли, които те по някакъв повод са казали. На централно място бе портретът на Антон Семьонович Макаренко (1888 – 1939). Попитах учителките кой е Макаренко – те посрещнаха въпроса ми с мълчание. А някога, в г

Книжка 4
„СИМВОЛНИЯТ КАПИТАЛ“ НА БЪЛГАРСКОТО УЧИЛИЩЕ

Николай Цанков, Веска Гювийска

KINETICS OF PHOTO-ELECTRO-ASSISTED DEGRADATION OF REMAZOL RED 5B

Fitria Rahmawati, Tri Martini, Nina Iswati

ALLELOPATHIC AND IN VITRO ANTICANCER ACTIVITY OF STEVIA AND CHIA

Asya Dragoeva, Vanya Koleva, Zheni Stoyanova, Eli Zayova, Selime Ali

NOVEL HETEROARYLAMINO-CHROMEN-2-ONES AND THEIR ANTIBACTERIAL ACTIVITY

Ramiz Hoti, Naser Troni, Hamit Ismaili, Gjyle Mulliqi-Osmani, Veprim Thaçi

Книжка 3
Quantum Connement of Mobile Na+ Ions in Sodium Silicate Glassy

QUANTUM CONFINEMENT OF MOBILE Na + IONS, IN SODIUM SILICATE GLASSY NANOPARTICLES

OPTIMIZATION OF ENGINE OIL FORMULATION USING RESPONSE SURFACE METHODOLOGY AND GENETIC ALGORITHM: A COMPARATIVE STUDY

Behnaz Azmoon, Abolfazl Semnani, Ramin Jaberzadeh Ansari, Hamid Shakoori Langeroodi, Mahboube Shirani, Shima Ghanavati Nasab

EVALUATION OF ANTIBACTERIAL ACTIVITY OF DIFFERENT SOLVENT EXTRACTS OF TEUCRIUM CHAMAEDRYS (L.) GROWING WILD IN KOSOVO

Arben Haziri, Fatmir Faiku, Roze Berisha, Ibrahim Mehmeti, Sevdije Govori, Imer Haziri

Книжка 2
COMPUTER SIMULATORS: APPLICATION FOR GRADUATES’ADAPTATION AT OIL AND GAS REFINERIES

Irena O. Dolganova, Igor M. Dolganov, Kseniya A. Vasyuchka

SYNTHESIS OF NEW [(3-NITRO-2-OXO-2H-CHROMEN4-YLAMINO)-PHENYL]-PHENYL-TRIAZOLIDIN-4-ONES AND THEIR ANTIBACTERIAL ACTIVITY

Ramiz Hoti, Hamit Ismaili, Idriz Vehapi, Naser Troni, Gjyle Mulliqi-Osmani, Veprim Thaçi

STABILITY OF RJ-5 FUEL

Lemi Türker, Serhat Variş

A STUDY OF BEGLIKTASH MEGALITHIC COMPLEX

Diana Kjurkchieva, Evgeni Stoykov, Sabin Ivanov, Borislav Borisov, Hristo Hristov, Pencho Kyurkchiev, Dimitar Vladev, Irina Ivanova

Книжка 1
2016 година
Книжка 6
THE EFFECT OF KOH AND KCL ADDITION TO THE DESTILATION OF ETHANOL-WATER MIXTURE

Khoirina Dwi Nugrahaningtyas, Fitria Rahmawati, Avrina Kumalasari

Книжка 5

ОЦЕНЯВАНЕ ЛИЧНОСТТА НА УЧЕНИКА

Министерството на народното просвещение е направило допълне- ния към Правилника за гимназиите (ДВ, бр. 242 от 30 октомври 1941 г.), според които в бъдеще ще се оценяват следните прояви на учениците: (1) трудолюбие; (2) ред, точност и изпълнителност; (3) благовъзпитаност; (4) народностни прояви. Трудолюбието ще се оценява с бележките „образцово“, „добро“, „незадо- волително“. С „образцово“ ще се оценяват учениците, които с любов и по- стоянство извършват всяка възложена им ил

Книжка 4
VOLTAMMERIC SENSOR FOR NITROPHENOLS BASED ON SCREEN-PRINTED ELECTRODE MODIFIED WITH REDUCED GRAPHENE OXIDE

Arsim Maloku, Liridon S. Berisha, Granit Jashari, Eduard Andoni, Tahir Arbneshi

Книжка 3
ИЗСЛЕДВАНЕ НА ПРОФЕСИОНАЛНО-ПЕДАГОГИЧЕСКАТА РЕФЛЕКСИЯ НА УЧИТЕЛЯ ПО БИОЛОГИЯ (ЧАСТ ВТОРА)

Надежда Райчева, Иса Хаджиали, Наташа Цанова, Виктория Нечева

EXISTING NATURE OF SCIENCE TEACHING OF A THAI IN-SERVICE BIOLOGY TEACHER

Wimol Sumranwanich, Sitthipon Art-in, Panee Maneechom, Chokchai Yuenyong

NUTRIENT COMPOSITION OF CUCURBITA MELO GROWING IN KOSOVO

Fatmir Faiku, Arben Haziri, Fatbardh Gashi, Naser Troni

НАГРАДИТЕ „ЗЛАТНА ДЕТЕЛИНА“ ЗА 2016 Г.

На 8 март 2016 г. в голямата зала на Националния политехнически музей в София фондация „Вигория“ връчи годишните си награди – почетен плакет „Златна детелина“. Тази награда се дава за цялостна професионална и творче- ска изява на личности с особени заслуги към обществото в трите направления на фондация „Вигория“ – образование, екология, култура. Наградата цели да се даде израз на признателност за високи постижения на личности, които на професионално равнище и на доброволни начала са рабо

Книжка 2
СТО ГОДИНИ ОТ РОЖДЕНИЕТО НА ПРОФЕСОР ХРИСТО ИВАНОВ (1916 – 2004)

СТО ГОДИНИ ОТ РОЖДЕНИЕТО, НА ПРОФЕСОР ХРИСТО ИВАНОВ, (96 – 00

CONTEXT-BASED CHEMISTRY LAB WORK WITH THE USE OF COMPUTER-ASSISTED LEARNING SYSTEM

N. Y. Stozhko, A. V. Tchernysheva, E.M. Podshivalova, B.I. Bortnik

Книжка 1
ПО ПЪТЯ

Б. В. Тошев

INTERDISCIPLINARY PROJECT FOR ENHANCING STUDENTS’ INTEREST IN CHEMISTRY

Stela Georgieva, Petar Todorov , Zlatina Genova, Petia Peneva

2015 година
Книжка 6
COMPLEX SYSTEMS FOR DRUG TRANSPORT ACROSS CELL MEMBRANES

Nikoleta Ivanova, Yana Tsoneva, Nina Ilkova, Anela Ivanova

SURFACE FUNCTIONALIZATION OF SILICA SOL-GEL MICROPARTICLES WITH EUROPIUM COMPLEXES

Nina Danchova , Gulay Ahmed , Michael Bredol , Stoyan Gutzov

INTERFACIAL REORGANIZATION OF MOLECULAR ASSEMBLIES USED AS DRUG DELIVERY SYSTEMS

I. Panaiotov, Tz. Ivanova, K. Balashev, N. Grozev, I. Minkov, K. Mircheva

KINETICS OF THE OSMOTIC PROCESS AND THE POLARIZATION EFFECT

Boryan P. Radoev, Ivan L. Minkov, Emil D. Manev

WETTING BEHAVIOR OF A NATURAL AND A SYNTHETIC THERAPEUTIC PULMONARY SURFACTANTS

Lidia Alexandrova, Michail Nedyalkov, Dimo Platikanov

Книжка 5
TEACHER’S ACCEPTANCE OF STUDENTS WITH DISABILITY

Daniela Dimitrova-Radojchikj, Natasha Chichevska-Jovanova

IRANIAN UNIVERSITY STUDENTS’ PERCEPTION OF CHEMISTRY LABORATORY ENVIRONMENTS

Zahra Eskandari, Nabi.A Ebrahimi Young Researchers & Elite Club, Arsanjan Branch,

APPLICATION OF LASER INDUCED BREAKDOWN SPECTROSCOPY AS NONDESDUCTRIVE AND SAFE ANALYSIS METHOD FOR COMPOSITE SOLID PROPELLANTS

Amir Hossein Farhadian, Masoud Kavosh Tehrani, Mohammad Hossein Keshavarz, Seyyed Mohamad Reza Darbany, Mehran Karimi, Amir Hossein Rezayi Optics & Laser Science and Technology Research Center,

THE EFFECT OF DIOCTYLPHTHALATE ON INITIAL PROPERTIES AND FIELD PERFORMANCE OF SOME SEMISYNTHETIC ENGINE OILS

Azadeh Ghasemizadeh, Abolfazl Semnani, Hamid Shakoori Langeroodi, Alireza Nezamzade Ejhieh

QUALITY ASSESSMENT OF RIVER’S WATER OF LUMBARDHI PEJA (KOSOVO)

Fatmir Faiku, Arben Haziri, Fatbardh Gashi, Naser Troni

Книжка 4
БЛАГОДАРЯ ВИ!

Александър Панайотов

ТЕМАТА ВЪГЛЕХИДРАТИ В ПРОГРАМИТЕ ПО ХИМИЯ И БИОЛОГИЯ

Радка Томова, Елена Бояджиева, Миглена Славова , Мариан Николов

BILINGUAL COURSE IN BIOTECHNOLOGY: INTERDISCIPLINARY MODEL

V. Kolarski, D. Marinkova, R. Raykova, D. Danalev, S. Terzieva

ХИМИЧНИЯТ ОПИТ – НАУКА И ЗАБАВА

Елица Чорбаджийска, Величка Димитрова, Магдалена Шекерлийска, Галина Бальова, Методийка Ангелова

ЕКОЛОГИЯТА В БЪЛГАРИЯ

Здравка Костова

Книжка 3
SYNTHESIS OF FLUORINATED HYDROXYCINNAMOYL DERIVATIVES OF ANTI-INFLUENZA DRUGS AND THEIR BIOLOGICAL ACTIVITY

Boyka Stoykova, Maya Chochkova, Galya Ivanova, Luchia Mukova, Nadya Nikolova, Lubomira Nikolaeva-Glomb, Pavel Vojtíšek, Tsenka Milkova, Martin Štícha, David Havlíček

SYNTHESIS AND ANTIVIRAL ACTIVITY OF SOME AMINO ACIDS DERIVATIVES OF INFLUENZA VIRUS DRUGS

Radoslav Chayrov, Vesela Veselinova, Vasilka Markova, Luchia Mukova, Angel Galabov, Ivanka Stankova

NEW DERIVATIVES OF OSELTAMIVIR WITH BILE ACIDS

Kiril Chuchkov, Silvia Nakova, Lucia Mukova, Angel Galabov, Ivanka Stankova

MONOHYDROXY FLAVONES. PART III: THE MULLIKEN ANALYSIS

Maria Vakarelska-Popovska, Zhivko Velkov

LEU-ARG ANALOGUES: SYNTHESIS, IR CHARACTERIZATION AND DOCKING STUDIES

Tatyana Dzimbova, Atanas Chapkanov, Tamara Pajpanova

MODIFIED QUECHERS METHOD FOR DETERMINATION OF METHOMYL, ALDICARB, CARBOFURAN AND PROPOXUR IN LIVER

I. Stoykova, T. Yankovska-Stefenova, L.Yotova, D. Danalev Bulgarian Food Safety Agency, Sofi a, Bulgaria

LACTOBACILLUS PLANTARUM AC 11S AS A BIOCATALYST IN MICROBIAL ELECYTOLYSIS CELL

Elitsa Chorbadzhiyska, Yolina Hubenova, Sophia Yankova, Dragomir Yankov, Mario Mitov

STUDYING THE PROCESS OF DEPOSITION OF ANTIMONY WITH CALCIUM CARBONATE

K. B. Omarov, Z. B. Absat, S. K. Aldabergenova, A. B. Siyazova, N. J. Rakhimzhanova, Z. B. Sagindykova

Книжка 2
TEACHING CHEMISTRY AT TECHNICAL UNIVERSITY

Lilyana Nacheva-Skopalik, Milena Koleva

ФОРМИРАЩО ОЦЕНЯВАНЕ PEER INSTRUCTION С ПОМОЩТА НА PLICКERS ТЕХНОЛОГИЯТА

Ивелина Коцева, Мая Гайдарова, Галина Ненчева

VAPOR PRESSURES OF 1-BUTANOL OVER WIDE RANGE OF THEMPERATURES

Javid Safarov, Bahruz Ahmadov, Saleh Mirzayev, Astan Shahverdiyev, Egon Hassel

Книжка 1
РУМЕН ЛЮБОМИРОВ ДОЙЧЕВ (1938 – 1999)

Огнян Димитров, Здравка Костова

NAMING OF CHEMICAL ELEMENTS

Maria Atanassova

НАЙДЕН НАЙДЕНОВ, 1929 – 2014 СПОМЕН ЗА ПРИЯТЕЛЯ

ИНЖ. НАЙДЕН ХРИСТОВ НАЙДЕНОВ, СЕКРЕТАР, НА СЪЮЗА НА ХИМИЦИТЕ В БЪЛГАРИЯ (2.10.1929 – 25.10.2014)

2014 година
Книжка 6
145 ГОДИНИ БЪЛГАРСКА АКАДЕМИЯ НА НАУКИТЕ

145 ANNIVERSARY OF THE BULGARIAN ACADEMY OF SCIENCES

ПАРНО НАЛЯГАНЕ НА РАЗТВОРИ

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

LUBRICATION PROPERTIES OF DIFFERENT PENTAERYTHRITOL-OLEIC ACID REACTION PRODUCTS

Abolfazl Semnani, Hamid Shakoori Langeroodi, Mahboube Shirani

THE ORIGINS OF SECONDARY AND TERTIARY GENERAL EDUCATION IN RUSSIA: HISTORICAL VIEWS FROM THE 21ST CENTURY

V. Romanenko, G. Nikitina Academy of Information Technologies in Education, Russia

ALLELOPATHIC AND CYTOTOXIC ACTIVITY OF ORIGANUM VULGARE SSP. VULGARE GROWING WILD IN BULGARIA

Asya Pencheva Dragoeva, Vanya Petrova Koleva, Zheni Dimitrova Nanova, Mariya Zhivkova Kaschieva, Irina Rumenova Yotova

Книжка 5
GENDER ISSUES OF UKRAINIAN HIGHER EDUCATION

Н.H.Petruchenia, M.I.Vorovka

МНОГОВАРИАЦИОННА СТАТИСТИЧЕСКА ОЦЕНКА НА DREEM – БЪЛГАРИЯ: ВЪЗПРИЕМАНЕ НА ОБРАЗОВАТЕЛНАТА СРЕДА ОТ СТУДЕНТИТЕ В МЕДИЦИНСКИЯ УНИВЕРСИТЕТ – СОФИЯ

Радка Томова, Павлина Гатева, Радка Хаджиолова, Зафер Сабит, Миглена Славова, Гергана Чергарова, Васил Симеонов

MUSSEL BIOADHESIVES: A TOP LESSON FROM NATURE

Saâd Moulay Université Saâd Dahlab de Blida, Algeria

Книжка 4
ЕЛЕКТРОННО ПОМАГАЛO „ОТ АТОМА ДО КОСМОСА“ ЗА УЧЕНИЦИ ОТ Х КЛАС

Силвия Боянова Професионална гимназия „Акад. Сергей П. Корольов“ – Дупница

ЕСЕТО КАТО ИНТЕГРАТИВЕН КОНСТРУКТ – НОРМАТИВЕН, ПРОЦЕСУАЛЕН И ОЦЕНЪЧНО-РЕЗУЛТАТИВЕН АСПЕКТ

Надежда Райчева, Иван Капурдов, Наташа Цанова, Иса Хаджиали, Снежана Томова

44

Донка Ташева, Пенка Василева

ДОЦ. Д.П.Н. АЛЕКСАНДЪР АТАНАСОВ ПАНАЙОТОВ

Наташа Цанова, Иса Хаджиали, Надежда Райчева

COMPUTER ASSISTED LEARNING SYSTEM FOR STUDYING ANALYTICAL CHEMISTRY

N. Y. Stozhko, A. V. Tchernysheva, L.I. Mironova

С РАКЕТНА ГРАНАТА КЪМ МЕСЕЦА: БОРБА С ЕДНА ЛЕДЕНА ЕПОХА В ГОДИНАТА 3000 СЛЕД ХРИСТА. 3.

С РАКЕТНА ГРАНАТА КЪМ МЕСЕЦА:, БОРБА С ЕДНА ЛЕДЕНА ЕПОХА, В ГОДИНАТА 000 СЛЕД ХРИСТА. .

Книжка 3
KNOWLEDGE OF AND ATTITUDES TOWARDS WATER IN 5

Antoaneta Angelacheva, Kalina Kamarska

ВИСША МАТЕМАТИКА ЗА УЧИТЕЛИ, УЧЕНИЦИ И СТУДЕНТИ: ДИФЕРЕНЦИАЛНО СМЯТАНЕ

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ВАСИЛ ХРИСТОВ БОЗАРОВ

Пенка Бозарова, Здравка Костова

БИБЛИОГРАФИЯ НА СТАТИИ ЗА МИСКОНЦЕПЦИИТЕ В ОБУЧЕНИЕТО ПО ПРИРОДНИ НАУКИ ВЪВ ВСИЧКИ ОБРАЗОВАТЕЛНИ НИВА

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

Книжка 2
SCIENTIX – OБЩНОСТ ЗА НАУЧНО ОБРАЗОВАНИЕ В ЕВРОПА

Свежина Димитрова Народна астрономическа обсерватория и планетариум „Николай Коперник“ – Варна

BOTYU ATANASSOV BOTEV

Zdravka Kostova, Margarita Topashka-Ancheva

CHRONOLOGY OF CHEMICAL ELEMENTS DISCOVERIES

Maria Atanassova, Radoslav Angelov

Книжка 1
ОБРАЗОВАНИЕ ЗА ПРИРОДОНАУЧНА ГРАМОТНОСТ

Адриана Тафрова-Григорова

A COMMENTARY ON THE GENERATION OF AUDIENCE-ORIENTED EDUCATIONAL PARADIGMS IN NUCLEAR PHYSICS

Baldomero Herrera-González Universidad Autónoma del Estado de México, Mexico

2013 година
Книжка 6
DIFFERENTIAL TEACHING IN SCHOOL SCIENCE EDUCATION: CONCEPTUAL PRINCIPLES

G. Yuzbasheva Kherson Academy of Continuing Education, Ukraine

АНАЛИЗ НА ПОСТИЖЕНИЯТА НА УЧЕНИЦИТЕ ОТ ШЕСТИ КЛАС ВЪРХУ РАЗДЕЛ „ВЕЩЕСТВА И ТЕХНИТЕ СВОЙСТВА“ ПО „ЧОВЕКЪТ И ПРИРОДАТА“

Иваничка Буровска, Стефан Цаковски Регионален инспекторат по образованието – Ловеч

HISTORY AND PHILOSOPHY OF SCIENCE: SOME RECENT PERIODICALS (2013)

Chemistry: Bulgarian Journal of Science Education

45. НАЦИОНАЛНА КОНФЕРЕНЦИЯ НА УЧИТЕЛИТЕ ПО ХИМИЯ

„Образователни стандарти и природонаучна грамотност“ – това е темата на състоялата се от 25 до 27 октомври 2013 г. в Габрово 45. Национална конфе- ренция на учителите по химия с международно участие, която по традиция се проведе комбинирано с Годишната конференция на Българското дружество за химическо образование и история и философия на химията. Изборът на темата е предизвикан от факта, че развиването на природонаучна грамотност е обща тенденция на реформите на учебните програми и главна

Книжка 5

ЗА ХИМИЯТА НА БИРАТА

Ивелин Кулев

МЕТЕОРИТЪТ ОТ БЕЛОГРАДЧИК

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

Книжка 4
RECASTING THE DERIVATION OF THE CLAPEYRON EQUATION INTO A CONCEPTUALLY SIMPLER FORM

Srihari Murthy Meenakshi Sundararajan Engineering College, India

CHEMICAL REACTIONS DO NOT ALWAYS MODERATE CHANGES IN CONCENTRATION OF AN ACTIVE COMPONENT

Joan J. Solaz-Portolés, Vicent Sanjosé Universitat de Valènciа, Spain

POLYMETALLIC COMPEXES: CV. SYNTHESIS, SPECTRAL, THERMOGRAVIMETRIC, XRD, MOLECULAR MODELLING AND POTENTIAL ANTIBACTERIAL PROPERTIES OF TETRAMERIC COMPLEXES OF Co(II), Ni(II), Cu(II), Zn(II), Cd(II) AND Hg(II) WITH OCTADENTATE AZODYE LIGANDS

Bipin B. Mahapatra, S. N. Dehury, A. K. Sarangi, S. N. Chaulia G. M. Autonomous College, India Covt. College of Engineering Kalahandi, India DAV Junior College, India

ПРОФЕСОР ЕЛЕНА КИРКОВА НАВЪРШИ 90 ГОДИНИ

CELEBRATING 90TH ANNIVERSARY OF PROFESSOR ELENA KIRKOVA

Книжка 3
SIMULATION OF THE FATTY ACID SYNTHASE COMPLEX MECHANISM OF ACTION

M.E.A. Mohammed, Ali Abeer, Fatima Elsamani, O.M. Elsheikh, Abdulrizak Hodow, O. Khamis Haji

FORMING OF CONTENT OF DIFFERENTIAL TEACHING OF CHEMISTRY IN SCHOOL EDUCATION OF UKRAINE

G. Yuzbasheva Kherson Academy of Continuing Education, Ukraine

ИЗСЛЕДВАНЕ НА РАДИКАЛ-УЛАВЯЩА СПОСОБНОСТ

Станислав Станимиров, Живко Велков

Книжка 2
Книжка 1
COLORFUL EXPERIMENTS FOR STUDENTS: SYNTHESIS OF INDIGO AND DERIVATIVES

Vanessa BIANDA, Jos-Antonio CONSTENLA, Rolf HAUBRICHS, Pierre-Lonard ZAFFALON

OBSERVING CHANGE IN POTASSIUM ABUNDANCE IN A SOIL EROSION EXPERIMENT WITH FIELD INFRARED SPECTROSCOPY

Mila Ivanova Luleva, Harald van der Werff, Freek van der Meer, Victor Jetten

ЦАРСКАТА ПЕЩЕРА

Рафаил ПОПОВ

УЧИЛИЩНИ ЛАБОРАТОРИИ И ОБОРУДВАНЕ SCHOOL LABORATORIES AND EQUIPMENT

Учебни лаборатории Илюстрации от каталог на Franz Hugershoff, Лайциг, притежаван от бъдещия

2012 година
Книжка 6
ADDRESING STUDENTS’ MISCONCEPTIONS CONCERNING CHEMICAL REACTIONS AND SYMBOLIC REPRESENTATIONS

Marina I. Stojanovska, Vladimir M. Petruševski, Bojan T. Šoptrajanov

АНАЛИЗ НА ПОСТИЖЕНИЯТА НА УЧЕНИЦИТЕ ОТ ПЕТИ КЛАС ВЪРХУ РАЗДЕЛ „ВЕЩЕСТВА И ТЕХНИТЕ СВОЙСТВА“ ПО ЧОВЕКЪТ И ПРИРОДАТА

Иваничка Буровска, Стефан Цаковски Регионален инспекторат по образованието – Ловеч

ЕКОТОКСИКОЛОГИЯ

Васил Симеонов

ПРОФ. МЕДОДИЙ ПОПОВ ЗА НАУКАТА И НАУЧНАТА ДЕЙНОСТ (1920 Г.)

Проф. Методий Попов (1881-1954) Госпожици и Господа студенти,

Книжка 5
КОНЦЕПТУАЛНА СХЕМА НА УЧИЛИЩНИЯ КУРС П О ХИМИЯ – МАКР О СКОПСКИ ПОДХОД

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ROLE OF ULTRASONIC WAVES TO STUDY MOLECULAR INTERACTIONS IN AQUEOUS SOLUTION OF DICLOFENAC SODIUM

Sunanda S. Aswale, Shashikant R. Aswale, Aparna B. Dhote Lokmanya Tilak Mahavidyalaya, INDIA Nilkanthrao Shinde College, INDIA

SIMULTANEOUS ESTIMATION OF IBUPROFEN AND RANITIDINE HYDROCHLORIDE USING UV SPECTROPHOT O METRIC METHOD

Jadupati Malakar, Amit Kumar Nayak Bengal College of Pharmaceutical Sciences and Research, INDIA

GAPS AND OPPORTUNITIES IN THE USE OF REMOTE SENSING FOR SOIL EROSION ASSESSMENT

Mila Ivanova Luleva, Harald van der Werff, Freek van der Meer, Victor Jetten

РАДИОХИМИЯ И АРХЕОМЕТРИЯ: ПРО Ф. ДХН ИВЕЛИН КУЛЕВ RADIOCHEMISTRY AND ARCHEOMETRY: PROF. IVELIN KULEFF, DSc

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

Книжка 4
TEACHING THE CONSTITUTION OF MATTER

Małgorzata Nodzyńska, Jan Rajmund Paśko

СЪСИРВАЩА СИСТЕМА НА КРЪВТА

Маша Радославова, Ася Драгоева

CATALITIC VOLCANO

CATALITIC VOLCANO

43-ТА МЕЖДУНАРОДНА ОЛИМПИАДА ПО ХИМИЯ

Донка ТАШЕВА, Пенка ЦАНОВА

ЮБИЛЕЙ: ПРОФ. ДХН БОРИС ГЪЛЪБОВ JUBILEE: PROF. DR. BORIS GALABOV

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ПЪРВИЯТ ПРАВИЛНИК ЗА УЧЕБНИЦИТЕ (1897 Г.)

Чл. 1. Съставянето и издаване на учебници се предоставя на частната инициа- тива. Забележка: На учителите – съставители на учебници се запрещава сами да разпродават своите учебници. Чл. 2. Министерството на народното просвещение може да определя премии по конкурс за съставяне на учебници за горните класове на гимназиите и специ- алните училища. Чл. 3. Никой учебник не може да бъде въведен в училищата, ако предварително не е прегледан и одобрен от Министерството на народното просвещение. Чл.

JOHN DEWEY: HOW WE THINK (1910)

John Dewey (1859 – 1952)

ИНФОРМАЦИЯ ЗА СПЕЦИАЛНОСТИТЕ В ОБЛАСТТА НА ПРИРОДНИТЕ НАУКИ В СОФИЙСКИЯ УНИВЕРСИТЕТ „СВ. КЛИМЕНТ ОХРИДСКИ“ БИОЛОГИЧЕСКИ ФАКУЛТЕТ

1. Биология Студентите от специалност Биология придобиват знания и практически умения в областта на биологическите науки, като акцентът е поставен на организмово равнище. Те се подготвят да изследват биологията на организмите на клетъчно- организмово, популационно и екосистемно ниво в научно-функционален и прило- жен аспект, с оглед на провеждане на научно-изследователска, научно-приложна, производствена и педагогическа дейност. Чрез широк набор избираеми и факул- тативни курсове студентите

Книжка 3
УЧИТЕЛИТЕ ПО ПРИРОДНИ НАУКИ – ЗА КОНСТРУКТИВИСТКАТА УЧЕБНА СРЕДА В БЪЛГАРСКОТО УЧИЛИЩЕ

Адриана Тафрова-Григорова, Милена Кирова, Елена Бояджиева

ПОВИШАВАНЕ ИНТЕРЕСА КЪМ ИСТОРИЯТА НА ХИМИЧНИТЕ ЗНАНИЯ И ПРАКТИКИ ПО БЪЛГАРСКИТЕ ЗЕМИ

Людмила Генкова, Свобода Бенева Българско дружество за химическо образование и история и философия на химията

НАЧАЛО НА ПРЕПОДАВАНЕТО НА УЧЕБЕН ПРЕДМЕТ ХИМИЯ В АПРИЛОВОТО УЧИЛИЩЕ В ГАБРОВО

Мария Николова Национална Априловска гимназия – Габрово

ПРИРОДОНАУЧНОТО ОБРАЗОВАНИЕ В БЪЛГАРИЯ – ФОТОАРХИВ

В един дълъг период от време гимназиалните учители по математика, физика, химия и естествена

Книжка 2
„МАГИЯТА НА ХИМИЯТА“ – ВЕЧЕР НА ХИМИЯТА В ЕЗИКОВА ГИМНАЗИЯ „АКАД. Л. СТОЯНОВ“ БЛАГОЕВГРАД

Стефка Михайлова Езикова гимназия „Акад. Людмил Стоянов“ – Благоевград

МЕЖДУНАРОДНАТА ГОДИНА НА ХИМИЯТА 2011 В ПОЩЕНСКИ МАРКИ

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ЗА ПРИРОДНИТЕ НАУКИ И ЗА ПРАКТИКУМА ПО ФИЗИКА (Иванов, 1926)

Бурният развой на естествознанието във всичките му клонове през XIX –ия век предизвика дълбоки промени в мирогледа на културния свят, в техниката и в индустрията, в социалните отношения и в държавните интереси. Можем ли днес да си представим един философ, един държавен мъж, един обществен деец, един индустриалец, просто един културен човек, който би могъл да игнорира придобив- ките на природните науки през последния век. Какви ужасни катастрофи, какви социални сътресения би сполетяло съвре

Книжка 1
MURPHY’S LAW IN CHEMISTRY

Milan D. Stojković

42-рa МЕЖДУНАРОДНА ОЛИМПИАДА ПО ХИМИЯ

Донка Ташева, Пенка Цанова

СЕМЕЙНИ УЧЕНИЧЕСКИ ВЕЧЕРИНКИ

Семейството трябва да познава училишето и училишето трябва да познава семейството. Взаимното познанство се налага от обстоятелството, че те, макар и да са два различни по природата си фактори на възпитанието, преследват една и съща проста цел – младото поколение да бъде по-умно, по-нравствено, физически по-здраво и по-щастливо от старото – децата да бъдат по-щастливи от родителите

©2005 Национално Издателство Аз-Буки ООД. Всички права запазени.