Chemical set with sensors, interface, and safety items, for 4 groups

Function

Designed for experimental study, a chemistry laboratory, and the performance of chemistry experiments on: temperature measurements, filtration processes, magnetic separation, distillation, decantation, homogeneous and heterogeneous systems, density measurements, changes in the physical state of water, conservation laws of matter, atomic structure, electrical conductivity, solubility of substances, types of chemical reactions, comparison between acids, bases, oxide properties, and salt formation, pH studies, titrimetry, fruit concentration, water equivalent in a calorimeter, specific heat of a solid, exothermic and endothermic reactions, neutralization heat, electrochemical cells, concentration factor, temperature and catalyst in reactions, isothermal transformation, Boyle-Mariotte, influence of temperature on the movement of atoms and molecules of a gas, solutions concentrations, organic structures, identification of chemical elements in organic chains, functions of hydrocarbons, alcohols, etc.

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Key Experiments

» General guidelines for activities in the Chemistry laboratory. - 1201.003_0
» General procedures for an experimental class FQB - 1201.003
» Laboratory reports and notebooks FQB. - 1201.003C
» Comparing different volume measurement scales. - 1032.003_B_1
» Volume measurements using different instruments and their measurement uncertainties. - 1032.003_C_2
» Determination of Bunsen burner temperatures. - 1201.011
» How to identify homogeneous and heterogeneous systems? - 1201.010
» How to determine the density of a liquid using a pycnometer? - 1042.036_1
» How to determine the density of a liquid using a hydrometer? - 1042.036_2
» How to determine the density of a solid? - 1042.036_3
» The solidification of water. - 1201.014_B_1
» The melting of ice. - 1201.014_B_2
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» How to separate heterogeneous mixtures using simple filtration? - 1212.012_1
» How to separate heterogeneous mixtures using magnetic separation? - 1212.012_2
» Vacuum filtration. - 1212.012_3B
» How to separate heterogeneous mixtures through decantation? - 1212.012_4
» How to separate homogeneous mixtures using paper chromatography? - 1212.014_A_1
» Fractional distillation. - 1212.014_B_2
» How can we relate the properties of substances through electrical conductivity? - 1222.012_A_1
» How can substances be related through their solubility in polar and nonpolar solvents? - 1222.012_2
» How to identify the occurrence of a chemical reaction? - 1232.002
» How does the decomposition or analysis reaction of sodium carbonate occur? - 1232.026_1
» How does the synthesis reaction of ammonium chloride occur? - 1232.026_2
» How does the hydrogen displacement reaction, a single replacement, occur? - 1232.027_1
» How does a double displacement reaction occur? - 1232.027_2
» How does an oxidation-reduction reaction occur? - 1232.028
» How do acids and bases behave in relation to different indicators? - 1252.024_1
» How to analyze the different chemical properties of acids? - 1252.024_2
» How to identify the character of an oxide? - 1252.022_1
» How to identify the character of an acidic oxide? - 1252.022_2
» How to obtain a basic oxide? - 1252.022_3
» How to obtain salts? - 1252.026
» Determination of pH and limitations of indicator paper - 1272.008
» Titration - 1272.002A
» The concentration of acid in a fruit - 1272.004A
» The water equivalent and heat capacity of a calorimeter. - 1052.027A
» Determining the specific heat capacity of a solid. - 1052.003I
» Endothermic reaction of copper sulfate with water. - 1232.016A
» Exothermic chemical reaction of copper nitrate - 1232.016B
» The heat of neutralization. - 1292.002A
» Electrochemistry, the Daniell cell. - 1082.039
» Electrolytes, second-class conductors. - 1242.002
» The decomposition of water through electrolysis, variable source. - 1242.004_A
» The concentration factor. - 1282.002
» The temperature factor - 1282.004
» The catalyst factor. - 1282.006
» Isothermal transformation, Boyle-Mariotte's law, digital absolute pressure sensor, interface. - 1052.032Q1
» Influence of temperature on the atomic and molecular motion of a gas - 1052.035Q
» Concentration of solutions, common and ppm. - 1262.002
» Concentration of solutions, molar, molarity. - 1262.004
» Concentration of solutions, normal, normality. - 1262.006
» Concentration of solutions, Title. - 1262.008
» Concentration of solutions, percentage by volume. - 1262.010
» Construction of three-dimensional organic structures. - 1302.001
» Identifying the presence of carbon through a flame. - 1302.002A
» Identifying the presence of carbon through the combustion of the carbohydrate sucrose, sugar. - 1302.002B1
» Identifying the presence of hydrogen through anhydrous copper sulfate. - 1302.002C1
» Identifying the presence of nitrogen in urea through ammonia gas. - 1302.004A
» Identifying the presence of halogen through the formation of a salt. - 1302.004B
» Identifying the presence of halogen through a flame, Kolle cable - 1302.004C
» Identifying the presence of oxygen by the color change in organic compounds. - 1302.006A
» Identifying the presence of sulfur in a strand of hair using a fume hood. - 1302.006B
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» Hydrocarbons, obtaining an alkyne, Wöhler method. - 1302.012A1
» Hydrocarbons, identification of an alkyne. - 1302.012B1
» Aromatic hydrocarbons, solubility - 1302.014A
» Aromatic hydrocarbons, combustion. - 1302.014B
» Aromatic hydrocarbons, alkylation reaction. - 1302.014C
» Alcohol, water absorption, color change. - 1302.016A
» Alcohol, oxidation reaction. - 1302.016C
» Some special precautions are taken in the QB laboratory. - 1201.003B
» Identify some components of the chemistry laboratory. - 1201.001
» Procedures for conducting QB experiments. - 1201.003D
» Some guidelines on cleaning and drying glassware QB. - 1201.005