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Natural Sciences set, elementary school II

Function

Intended for experimental study, a natural science laboratory, and conducting natural science experiments on: Natural Sciences. The sense of touch. Identifying some seeds. Water and seed germination. Types of soil. Changes in the physical state of water, melting and evaporation. Water content in the soil. Fruit decomposition by mold. A stringed instrument. Using magnets to separate materials, recycling. The harmful effects of cigarettes. The phases of the moon. The functioning and use of a compass. Permanent magnets, temporary magnets, and electromagnets. Measuring weights and masses. Force, mechanical, plastic, and elastic deformations. Sunrise and sunset in different parts of the world. Sundial. Matter and energy. Light, transparent, translucent, and opaque media. The shape of objects. Vertical position. The free surface of still water. The energy of moving air. Differentiating between solid, liquid, and gaseous bodies. Water condensation. Heat and ice melting. Separating objects with a magnet. Identifying objects by sound. Low-pitched and high-pitched sounds. Producing oxygen. Decantation and filtration. The Magdeburg experiment, atmospheric pressure. Communicating vessels. The thermoscope. Means of heat propagation. Electrification, principles of electrostatics. Vision defects and correction of hyperopia and myopia with lenses. Reference frame, position, motion, and trajectory. Free fall motion. The minimum launch height in a loop. Friction forces and Newton's first law of motion. Simple machines: fixed pulley and movable pulley. Hooke's Law. Associations of springs in series and in parallel. Equilibrium conditions. The principle of conservation of mechanical energy. Work and energy. Archimedes' principle. Soil erosion. General and specific properties of matter. The magnetic field of a magnet. Differentiation between force and pressure. The simple pendulum. Pascal's principle. The difference between heat and temperature. Thermal sensation and temperature. Newton's disc. Properties of light ray propagation. The effect of light striking a polished surface. Light refraction and its laws. Electrical conductors and insulators. Associations of lamps and resistors. Ohm's law. Measurements in circuits and electrical power. Kirchhoff's loop and node laws. RC circuit. The transformer. The blackout. Main characteristics of waves. The phenomenon of reflection and interference in a wave. Standing wave. Measuring the speed of a pulse. Sound, a longitudinal mechanical wave. Doppler effect. Comparing different volume measurement scales. Determining the density of a liquid using a hydrometer and that of a solid using a pycnometer. Periodic table. The electronic distribution of chemical elements. Kinetic behavior of gases. Influence of temperature on atomic and molecular motion. Separation of mixtures by simple filtration, magnetism, and paper chromatography. Chemical bonds. Electrical conductivity. Pure substances and mixtures. Chemical reactions. The hydrogen displacement reaction, single replacement. Double replacement reaction. Behavior of acids and bases in relation to different indicators. The character of an acidic oxide. How to obtain a basic oxide? Chemical kinetics. The catalytic factor. Organic chemistry. Construction of three-dimensional organic structures. Alcohol. The biological microscope and its parts. Preparation of a slide. How to classify invertebrates? Are all circulatory systems the same? How to extract and observe DNA from a fruit? How are chromosomes divided? AND rule and OR rule in genetics. Genetic crosses, Punnett square. Color blindness. How does natural selection occur? How is a gene selected in a population? etc.

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DetalhesDetails
Detalhes com Principais ExperimentosDetails with the main experiments

Key Experiments

  • » Light is necessary for us to see. - 0001.005A1
  • » The tact of each individual, inclusion. - 0001.006
  • » Identifying some seeds. - 0001.040A
  • » Is water necessary for seed germination? - 0001.045
  • » How to identify different types of soils? - 0001.050A
  • » Change of physical state of water, melting. - 0001.065A
  • » The evaporation of water, the slow transition from the liquid state to the vapor state. - 0001.075A
  • » The water contained in the soil. - 0001.210A
  • » The decomposition of fruit due to the action of mold. - 0001.245A
  • » The bicordio, a stringed instrument, inclusion. - 0001.265A1
  • » Using magnets to separate materials, recycling. - 0001.276
  • » The harmful effects of cigarettes. - 0001.346B
  • » Force, mechanical deformations, plastic deformation and elastic deformation. - 1032.018
  • » Measuring weights of different masses. - 1032.039A
  • » Sunrise and sunset at the North Pole. - 1032.200
  • » Sunrise and sunset in Fort Yukon - Alaska - USA, Arctic Circle. - 1032.201
  • » Sunrise and sunset in Havana, Cuba. - 1032.202
  • » Sunrise and sunset in Macapá - Amapá, Brazil. - 1032.203
  • » Sunrise and sunset in Ubatuba - São Paulo, Brazil. - 1032.204
  • » Sunrise and sunset in Porto Alegre - Rio Grande do Sul, Brazil. - 1032.205
  • » Sunrise and sunset at Amundsen-Scott Station - Antarctic Circle. - 1032.206
  • » Sunrise and sunset in your city. - 1032.208
  • » The construction of a sundial. - 1032.209
  • » The phases of the Moon. - 1062.030
  • » The functioning and use of a compass. - 1082.124
  • » Permanent magnets, temporary magnets, and electromagnets. - 1082.140C
  • » Identifying objects by sound. - 0001.016
  • » The shape of objects. - 0001.017
  • » The vertical position. - 0001.020
  • » The arrangement of objects on flat surfaces. - 0001.025
  • » Differentiating between solid bodies, liquid bodies, and gaseous bodies. - 0001.030
  • » The energy of moving air. - 0001.035
  • » The free surface of still water is horizontal. - 0001.090
  • » Heat makes ice melt faster. - 0001.080
  • » The condensation of water, the change of state from vapor to liquid. - 0001.190
  • » Low-pitched sounds and high-pitched sounds. - 0001.270
  • » Separating objects using a magnet. - 0001.275
  • » Light, transparent, translucent and opaque media. - 1062.002
  • » Producing oxygen through a chemical reaction. - 0001.125
  • » Decantation and filtration, two steps in water purification. - 0001.200
  • » The Magdeburg Hemispheres Experiment and Atmospheric Pressure. - 1032.093
  • » Inflating a balloon, decreasing the external pressure. - 1032.094C
  • » The free surfaces of a liquid within communicating vessels. - 1042.004
  • » The thermoscope. - 1052.004B
  • » The means of heat propagation. - 1052.025A
  • » Vision defects, correction of ametropia, hyperopia and myopia, with lenses. - 1062.003E7
  • » Electrification, principles of electrostatics, static electricity. - 1082.032
  • » The minimum launch height to perform the loop. - 1032.110
  • » A simple machine called a fixed pulley - 0001.046A
  • » A simple machine called a movable pulley. - 1032.026J_0
  • » Frictional forces and Newton's first law of motion. - 1032.046
  • » The helical spring and Hooke's law. - 1032.052B_3
  • » Association of helical springs in series. - 1032.053B_3
  • » Parallel helical spring assembly. - 1032.053C_3
  • » The equilibrium conditions of a body on an inclined plane. - 1032.043
  • » Work and energy in a mass-spring system, conservation of mechanical energy. - 1032.056B_3
  • » Archimedes' principle. - 1042.032B
  • » The melting of ice, the change of state of water from solid to liquid. - 0001.065
  • » Soil erosion caused by the increase in water volume upon freezing. - 0001.070
  • » The general properties of matter. - 0001.100
  • » The specific properties of matter. - 0001.102
  • » Soil erosion caused by moving water. - 0001.195
  • » The burning of a candle produces light and heat. - 0001.235
  • » Wind chill and temperature. - 0001.300A
  • » Observing the compressibility and elasticity of air. - 0001.330
  • » Inertia, one of the general properties of matter. - 1032.002_1
  • » The simple pendulum. - 1032.015A
  • » The force applied to a spring and the resulting elongation. - 1032.052F
  • » The distinction between force and pressure. - 1032.092A
  • » Pascal's principle, the hydraulic lift. - 1042.026
  • » The difference between heat and temperature - 1052.004C2
  • » The physical states of water. - 1052.008_A3
  • » The solidification of water, obtaining colored ice. - 1052.008_A4
  • » Boiling and condensation of water. - 1052.012A
  • » Light, the properties of rectilinear propagation and the independence of rays. - 1062.003E1
  • » The effect of light hitting 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
  • » The composition of colors on a Newton's disc. - 1062.004R
  • » Electrical conductors and electrical insulators. - 1082.036
  • » Series, opposition, and parallel connections between batteries. - 1082.040
  • » The lines of force and the magnetic field of a magnet, magnetism. - 1082.120A
  • » Permanent magnets, temporary magnets, and electromagnets. - 1082.140
  • » Series and parallel lamp connections. - 1082.044A_2
  • » Ohm's Law. - 1082.056A_3
  • » Resistor combinations in series, parallel, and mixed configurations. - 1082.076A_3
  • » Kirchhoff's loop law and Kirchhoff's knot law. - 1082.076C
  • » The potentiometer, a variable resistor. - 1082.084_2
  • » Measurements in mixed circuits, electrical power, direct current. - 1082.092A_6
  • » Series RC circuit, direct current. - 1082.131A
  • » Oersted's experiment and electromagnetism, electromagnetic phenomena and electromagnetic induction. - 1082.128C
  • » Temporary magnet, the electromagnet. - 1082.140A2
  • » The electrical voltage transformer. - 1082.176_5
  • » The operation of an electric power generator, blackout. - 1082.177A
  • » Main characteristics of waves in a long helical spring. - 1072.011
  • » Determining the average propagation speed of a pulse in a long helical spring. - 1072.011_1
  • » The phenomenon of reflection and interference in a transverse wave in a spring, a standing wave. - 1072.011_2
  • » Sound, a longitudinal mechanical wave. - 1072.059
  • » Sound, Doppler effect. - 1072.061
  • » Types of energy - manual electric power generator. - 1082.177_A
  • » Comparing different volume measurement scales. - 1032.003_B_1
  • » Volume measurements using different instruments and their measurement uncertainties. - 1032.003_C_2
  • » How to measure using some instruments in a chemistry lab. - 1032.003_B
  • » The condensation of water vapor contained in the air. - 0001.060
  • » The physical states of water. - 1052.008_A3A
  • » Determine the density of a liquid using a pycnometer and a digital thermometer. - 1042.036_11
  • » How to determine the density of a liquid using a hydrometer? - 1042.036_2
  • » Determine the density of a solid using a pycnometer and a digital thermometer. - 1042.036_32
  • » The electronic configuration of chemical elements. - 1232.035
  • » The kinetic behavior of gases. - 1052.035S1
  • » Influence of temperature on the atomic and molecular motion of a gas. - 1052.035S2
  • » How to separate heterogeneous mixtures using simple filtration? - 1212.012_1
  • » How to separate heterogeneous mixtures using magnetic separation? - 1212.012_2
  • » How to separate homogeneous mixtures using paper chromatography? - 1212.014_A_1
  • » How can we relate the properties of substances through electrical conductivity? - 1222.012_A_1
  • » How to identify homogeneous and heterogeneous systems? - 1201.010
  • » How does the hydrogen displacement reaction, a single replacement, occur? - 1232.027_1
  • » How does a double displacement reaction occur? - 1232.027_2
  • » How do acids and bases behave in relation to different indicators? - 1252.024_1
  • » How to identify the character of an acidic oxide? - 1252.022_2
  • » How to obtain a basic oxide? - 1252.022_3
  • » The catalyst factor. - 1282.006
  • » Construction of three-dimensional organic structures. - 1302.001
  • » Alcohol, water absorption, color change. - 1302.016A
  • » How to classify invertebrates? - 1505.003
  • » Are all circulatory systems the same? - 1505.004
  • » How to use a biological microscope? - 1505.011
  • » Identifying the parts of a biological microscope - 1505.014
  • » Are we all the same? - 0001.500
  • » How are chromosomes divided? - 0001.510
  • » How to extract and observe the DNA of a fruit? - 0003.025A
  • » What is the probability? The AND rule and the OR rule in genetics. - 1505.110
  • » Genetic crosses, using Punnett square. - 1505.121
  • » Could I be colorblind? - 1505.130
  • » How does natural selection occur? - 1505.140
  • » How is a gene selected in a population? - 1505.160
  • » Faraday's law, Lenz's law, Faraday-Lenz-Neumann law, electromagnetic induction, electromagnetic phenomena. - 1082.128A_3

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