FQBM Multidisciplinary Master Set

Function

Intended for study, multidisciplinary laboratory, multidisciplinary experiments on MRU, MRUV, MHS, free fall, work, energy, energy conservation, friction, balance, Hooke's law, Archimedes' principle, heat, temperature, light, mirror, reflection, refraction, prism, resistor associations, Ohm's law, non-ohmic resistor, mixed circuits, electrical power, AC, RC and DC circuits, Kirchhoff's laws, magnetic field, electromagnet, transformers, electromagnetism, uncertainties, material properties, density, physical states of water, mixtures, properties of substances, acids and bases, chemical kinetics, electrochemistry, Daniell cell, atomic structure, organic functions, soils, water, mold, fungi, bacteria, seeds, flower, cells, enzymes, vision, lenses, area, external and internal volume, cube, prism, polygon, perimeter, trigonometry, degree, radian, quadrants, sine, cosine, tangent, circle trigonometric, affine function, angular coefficient, quadratic function, etc.

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Details

Details with the main experiments

Key Experiments

» Reference, position, movement and trajectory. - 1032.001
» What are the characteristics of MRU? - 1032.005B1
» The meeting of two pieces of furniture in MRU with opposite directions. - 1032.005C1
» The MRUV and its characteristics. - 1032.006_D
» Free fall motion with a test specimen of 10 equal intervals. - 1032.010K1
» The principle of conservation of mechanical energy in a falling cylinder. - 1032.010K3_1
» Frictional forces and Newton's first law of motion. - 1032.046
» The equilibrium conditions of a mobile on an inclined plane. - 1032.043
» Determination of the coefficients of static, kinetic and sliding friction on an inclined plane. - 1032.048
» Work and energy in a mass and helical spring system. - 1032.056B
» The helical spring and Hooke's law. - 1032.052B
» Dynamic determination of the spring constant of a helical spring. - 1032.012_1
» Buoyancy, a vertical force, directed from bottom to top. - 1042.028B
» The SHM in an oscillating mass and coil spring system. - 1072.008B
» Dynamic determination of K of a helical spring, mass oscillator and spring. - 1032.012B
» The difference between heat and temperature. - 1052.004C2_1
» Heat and temperature. - 1052.004C2_2T
» Light, the properties of rectilinear propagation and the independence of rays. - 1062.003E1
» The effect of light falling on a polished surface. - 1062.003E2_2
» Reflection in concave and convex spherical mirrors. - 1062.003E4_2
» The refraction of light and its laws, the diopters. - 1062.003E5_2
» Spherical lenses and their main characteristics. - 1062.003E6
» Refraction in a 90 degree optical prism. - 1062.003E8
» The image formed in a plane mirror and its characteristics. - 1062.004D
» The number of images formed between two plane mirrors at an angle to each other. - 1062.004E
» The color code in the characterization of a resistor and its electrical resistance. - 1082.048
» Lamp associations in series and parallel. - 1082.044A_1
» Ohm's law. - 1082.056A_1
» The identification of a non-ohmic resistor. - 1082.064A_1
» Series, parallel and mixed resistor associations. - 1082.076A_1
» The potentiometer, a variable resistor. - 1082.084_1
» The resistance offered by a diode. - 1082.088A_1
» Measurements in mixed circuits and electrical power. - 1082.092A_1
» Measurement of the difference in electrical voltages between two points in an AC circuit. - 1082.129
» Measurements of electric current intensities between two points in an AC circuit. - 1082.130
» The series RC circuit, in direct current. - 1082.131
» Kirchhoff's mesh law and knot law. - 1082.076B
» The measurement of the potential difference between two points in a DC circuit. - 1082.053_B1
» The measurement of electric current intensity in DC circuits. - 1082.053_B2
» The lines of force and the magnetic field of the magnet, magnetism. - 1082.120A
» The transformer, step-down and step-up voltage. - 1082.176_4
» Permanent magnets, temporary magnets and the electromagnet. - 1082.140A1
» Electromagnetic phenomena and electromagnetic induction. - 1082.128B
» How to measure with some instruments in the Chemistry laboratory. - 1032.003_B
» Comparing different volume measurement scales. - 1032.003_B_1
» How to compare volume measurements and their uncertainties across different instruments? - 1032.003_B_2
» The general properties of matter. - 0001.100
» Determine the density of a liquid using a pycnometer and digital thermometer. - 1042.036_11
» Determine the density of a solid using a pycnometer and digital thermometer. - 1042.036_31
» The physical states of water. - 1052.008_A3A
» How to separate heterogeneous mixtures using simple filtration? - 1212.012_1
» How to relate the properties of substances through electrical conductivity? - 1222.012_A_1
» The electronic distribution of chemical elements, using the table. - 1232.035Q
» The electronic distribution of chemical elements, using the table. - 1232.035T
» How do acids and bases behave in relation to different indicators? - 1252.024_1
» The concentration factor. - 1282.002
» Electrochemistry, the Daniell cell. - 1082.039
» Construction of three-dimensional organic structures. - 1302.001
» Identifying the presence of oxygen by color change in organic compounds. - 1302.006A
» Alcohol, water absorption, color change. - 1302.016A
» How to identify humus, sandy and clayey soils? - 0001.050
» What does your water hide? - 0001.362A
» Mold decomposes organic matter. - 0001.250
» How do yeast-like fungi grow on salt and sugar? - 0001.256
» The macroscopic fungus. - 0001.260A
» The identification of some seeds. - 0001.040
» What are the structures of a flower like? - 0001.180
» How does catalase act inside plant cells? - 0003.015
» Is it possible to observe the action of enzymes? - 0003.017
» How to test the pH of different substances? - 0003.019
» Vision defects, correction of ametropia, hyperopia and myopia, with lenses. - 1062.003E7
» Genetic crosses, using Punnett square. - 1505.121
» Genetic crosses, using Punnett squares. - 1505.121T
» Where are the bacteria? - 1505.013A
» What are the characteristics of the graph of the affine function? Positive angular coefficient. - 1400,000
» What are the characteristics of the graph of the affine function? Negative angular coefficient. - 1400,000A
» What are the characteristics of the quadratic function? - 1400.102
» Degree, radian, quadrants and their conversions, with panel. - 1072.006_A
» The sine in the trigonometric circle, sinusoidal function, with panel. - 1072.006_B
» The cosine in the trigonometric circle, with panel. - 1072.006_C
» The tangent in the trigonometric circle, with panel. - 1072.006_D
» The fundamental relationship of trigonometry in the trigonometric circle, with panel. - 1072.006_E
» How to handle the scalpel. - 1998.302