Education Using Museum Instruments and Apparatus in The Great Serbian Chemists’ Collection

Scientific instruments and apparatus are noteworthy exhibits in museums. Other than showing evolution of technology in achieving lower limits of detection, these pieces are useful educational resources. Development of specific instrument rarely drastically changes the principles of operation. Showing parts and techniques on old or broken pieces can help students to engage and understand newer scientific instruments. During exhibition on Science Festival 2018, a set of key pieces were shown. Visitors found that the most interesting one were apparatus for continual bidistillation of water (1961, Glass Factory Pula, Croatia) and pH meter (1940ties, O.M.A.P., Ottica Mecc. App. Di Precisione, Italy). [1] The distillation apparatus was attractive to visitors and then used to explain the hydrological cycle in nature. pH meter wasn’t as visually attractive as distillation apparatus. The most curious visitors had chance to learn about pH values in body and different house chemicals. This seemed to be very important, because some visitors were convicted that human bodies are basic, according to pH scale. These exhibits are relevant educational resources for education of elementary, high school and faculty students. Science Festival exhibition showed that educating adults is also important. Adult visitors seemed not to be enough critically oriented towards magazine articles that claimed that human body pH was overall above 7.We owe many thanks to Ana Đorđević and Zorana Đorđević who photographed selected pieces. We also thank Katarina Kojić, Sara Knežević, Milica Čalija, Katarina Tomić, Olivera Stevanović, and Nenad Zarić for their cooperation during the exhibition at the Science Festival 2018

Education Using Museum Instruments and Apparatus in The Great Serbian Chemists’ Collection

Scientific instruments and apparatus are noteworthy exhibits in museums. Other than showing evolution of technology in achieving lower limits of detection, these pieces are useful educational resources. Development of specific instrument rarely drastically changes the principles of operation. Showing parts and techniques on old or broken pieces can help students to engage and understand newer scientific instruments. During exhibition on Science Festival 2018, a set of key pieces were shown. Visitors found that the most interesting one were apparatus for continual bidistillation of water (1961, Glass Factory Pula, Croatia) and pH meter (1940ties, O.M.A.P., Ottica Mecc. App. Di Precisione, Italy). [1] The distillation apparatus was attractive to visitors and then used to explain the hydrological cycle in nature. pH meter wasn’t as visually attractive as distillation apparatus. The most curious visitors had chance to learn about pH values in body and different house chemicals. This seemed to be very important, because some visitors were convicted that human bodies are basic, according to pH scale. These exhibits are relevant educational resources for education of elementary, high school and faculty students. Science Festival exhibition showed that educating adults is also important. Adult visitors seemed not to be enough critically oriented towards magazine articles that claimed that human body pH was overall above 7.We owe many thanks to Ana Đorđević and Zorana Đorđević who photographed selected pieces. We also thank Katarina Kojić, Sara Knežević, Milica Čalija, Katarina Tomić, Olivera Stevanović, and Nenad Zarić for their cooperation during the exhibition at the Science Festival 2018

"It happened, what's the problem?" and "A guide through the problem" - A model for consideration of ecological issues in chemistry education

In order to improve the ability to apply knowledge of chemistry (acquired in the existing educational system) in real life, the model for consideration of ecological issues was developed and applied in high school. The model consists of a continuous text "It Happened, What's the Problem?" and a test with non-continuous text "A Guide Through the Problem", which were prepared for consideration of the problem of eutrophication. All results obtained (average achievement of 70.9 +/- 14.3 %) showed that the application of the model enabled: understanding of an ecological problem based on scientific representations of the term eutrophication given in the continuous text, realization that pollution of the environment may be directly related to modern life, application of acquired knowledge of chemistry to observe and understand the cause and effect of eutrophication in the environment, to draw a scientific conclusion, and understanding the importance of science and technology discoveries for solving ecological problems. In addition, the model contributed to the development of student's environmental literacy (ecological knowledge and cognitive skills), ability to think critically, and provided possibilities for classroom knowledge to become applicable in real life

Translation of P = kT into a pictorial external representation by high school seniors

This paper describes the results achieved by high school seniors on an item which involves translation of the equation P = kT into a corresponding pictorial external representation. The majority of students (the classes of 2011, 2012 and 2013) did not give the correct answer to the multiple choice part of the translation item. They chose pictorial representations of the other gas laws (P = k/V, or V = kT) instead. Failure to choose the correct answer was surprising considering that the symbol for volume was absent which should have been the key clue. Through the analysis of students' explanations (the classes of 2011 and 2012) and interviews (the class of 2013) we considered the reasoning applied by students who chose the correct answer or distractors for the multiple choice part of the item. Among the students who answered correctly there were explanations which contained misconceptions. Several factors that lead to the unsuccessful translation between external representations have been discovered. Students interpreted the change in one quantity based on the notation for the change in another one because of deep rooted cognitive schemas about changing two quantities (volume and pressure, pressure and temperature, temperature and volume), without consideration that for such changes to be valid for gases all three quantities need to be considered for a certain amount of substance. Those cognitive schemas interfered with mathematical reasoning, i.e. students possessed limited understanding of the equations

"It happened, what’s the problem?" and "A guide through the problem": A model for consideration of ecological issues in chemistry education

In order to improve the ability for application of knowledge of chemistry (acquired in the existing educational system) in real life the Model for Consideration of Ecological Issues was developed and applied in high school. The Model consists of the continuous text (“It Happened, What’s the Problem?”) and the test with non-continuous text (“A Guide Through the Problem”), which are prepared for consideration of the problem of eutrophication. All results obtained (average achievement of 70.9±14.3 %) showed that the application of the Model enabled: understanding of an ecological problem based on scientific representations of the term eutrophication given in the continuous text, realization that the pollution of our environment may be directly related to modern life, application of acquired knowledge of chemistry to observe and understand the cause and effect of eutrophication in our environment, to draw a scientific conclusion, and understanding the importance of science and technology discoveries for solving ecological problems. In addition, Model contributed to the development of student’s environmental literacy (ecological knowledge and cognitive skills), ability to think critically, and provided possibilities for classroom knowledge to become applicable in real life. [Projekat Ministarstva nauke Republike Srbije, br. 179048

Beer as a Teaching Aid in the Classroom and Laboratory

Beer was chosen as a teaching tool to maximize students' class participation and systemize and enhance their knowledge of chemistry. Viewing beer as a complex mixture allowed the students to learn how to directly apply their chemistry knowledge. Before the "Beer Unit" students were instructed to research beer and acquire data on beer composition and properties. They were also asked to propose a hypothesis about possible chemical links between the components of beer and suggest qualitative analytical experiments. During the Laboratory and classroom periods, the students performed experiments, analyzed the results, tested their hypotheses, and solved problems. The multilevel approach generated more discussion topics and acquisition of new chemistry knowledge. The students were also encouraged to point out negative consequences caused by uncontrolled consumption of beer. As a result of this unit, the students obtained the correct answers during chemistry classes, and they gained powerful arguments for discussions and were able to make proper health and life choices