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Cidepe

Master unit for general physics with cabinet

Function

Intended for experimental study, physics laboratory and carrying out physics experiments on: Physics. Earth and universe. The Magdeburg hemispheres experiment and atmospheric pressure. Inflating a balloon, decreasing the external pressure. Metrology. Universal gravitation. Kepler's laws. Kinematics. MRU. MCU. The combined movement of an MRU with an MCU. Range, uncertainty and speed in a horizontal launch. Dynamics. Simple machines (fixed and mobile pulley, exponential hoist, parallel block, inclined plane). Hooke's law. The association of springs. Elastic constant. Newton's laws. Friction. Conservation of energy. Horizontal launch, range, uncertainty and horizontal momentum. Statics. Equilibrium conditions, Varignon's theorem. Hydrostatics. Buoyancy. Archimedes' principle. Stevin's theorem. Pascal's principle. Atmospheric pressure. Wave. Simple pendulum. MHS. Mechanical waves, transverse, longitudinal and stationary. Waves in liquids. Two-dimensional waves. Speed of propagation. Laws of reflection and refraction. Diffraction. Interference. Resonance. Doppler effect. Thermodynamics. Calorimetry. Heat and temperature. Thermal equilibrium. Heat capacity. Specific heat. Latent heat. Physical states of matter. Thermal expansion. Coefficient of expansion. Thermodynamics. Means of heat propagation. Thermal insulation. Thermoscope. Study of gases and their transformations. Boyle-Mariotte law. Sound. Interference, resonance and beating. Light and optics. Diopters. Plane mirrors. Spherical lenses and their characteristics. Vision defects. Optical prisms. Electricity. Lines of force. Faraday cage and electrostatic shielding. Coaxial cable. Electric potential. Van de Graaff generator and dielectric strength. Foil electroscope. Equipotential surfaces, lines of force and electric field vector. Series, parallel and mixed association of lamps and resistors. The fuse. Joule effect. DC circuit. Ohm's laws. Current, voltage and electric power. Kirchhoff's laws. Charge and discharge in a capacitor, RC circuit. Electromagnetism. Oersted's experiment. Faraday's and Lenz's laws, electromagnetic phenomena. Biot-Savart's law. Magnetic induction. The electromagnet. The transformer. The telegraph and the bell. Modern physics. Determination of the threshold voltage, Planck's constant and characteristic curve in an LED. Determination of Planck's constant, etc.

Cidepe - Industrial Center for Teaching and Research Equipment - is a company of reference in educational instruments in educational institutions in Brazil and abroad. With an experienced team of engineers, professors, researchers, consultants and other collaborators, Cidepe develops products with technology and human talent to improve the teaching dynamics.
The entire history of pioneering spirit and work focused on customer needs makes the Cidepe brand increasingly present in the lives of thousands of students, bringing greater participation and interest to the knowledge experience in the areas of Chemistry, Physics and Biology. Contact our sales team, we are available to assist your educational institution on this journey towards practical knowledge.

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DetalhesDetails
Detalhes com Principais ExperimentosDetails with the main experiments

Key Experiments

  • » Significant figures and uncertainties. - 1032.003_0
  • » Reference, position, movement and trajectory. - 1032.001
  • » The MRU and its characteristics. - 1032.005B
  • » The meeting of two pieces of furniture in MRU with opposite directions. - 1032.005C
  • » The relativity of motion according to the reference frame. - 1032.002
  • » The MCU, uniform circumferential motion. - 1032,060
  • » The combined movement of an MRU with an MCU. - 1032.060A0
  • » Range, uncertainty and velocity in a horizontal launch. - 1032.064_1A
  • » The simple machine called a fixed pulley - 1032.026_1P
  • » The simple machine called a movable pulley and its mechanical advantage. - 1032.026_2P
  • » Determining the mechanical advantages of fixed pulley. - 1032.026AFP
  • » A freight elevator system using fixed pulleys. - 1032.040EP
  • » The spring constant of a helical spring, Hooke's law, the restoring force. - 1032.052AFP
  • » The spring constant of a series association of springs, Hooke's law, the restoring force. - 1032.052AF_1P
  • » The spring constant of a parallel association of springs, Hooke's law, the restoring force. - 1032.052AF_2P
  • » Getting to know the fixed pulley, a simple machine. - 1032.026A_2
  • » Getting to know the mobile pulley, a simple machine. - 1032.027A_2
  • » The exponential hoist, a simple machine. - 1032.030A_2
  • » The parallel notebook, a simple machine. - 1032.031_2
  • » The characteristic curve of elongation of a coil spring and a rubber belt, elastic hysteresis - 1032.022A_2
  • » Frictional forces and Newton's first law of motion. - 1032.046
  • » Determination of the coefficients of static, kinetic and sliding friction on an inclined plane. - 1032.048
  • » Exploring the laws of dynamics with the retro-propulsion car - 1032.086
  • » Hooke's law on a helical spring. - 1032.052A_2
  • » The association of coil springs in series. - 1032.053_2
  • » The association of coil springs in parallel. - 1032.053A_2
  • » Mechanical work, potential energy and kinetic energy in a mass and helical spring system. - 1032.056A_2
  • » Work and mechanical energy in a mass and helical spring system. - 1032.056AFP
  • » Horizontal launch, range, uncertainty and horizontal momentum. - 1032.076_1A
  • » Mass, weight and determination of the local g value. - 1032.039_1P
  • » The composition of concurrent coplanar forces, 90° apart. - 1032.040F1P
  • » The composition and decomposition of concurrent coplanar forces with 60 - 1032.040F2P
  • » The composition and decomposition of concurrent coplanar forces at 120° to each other. - 1032.040FP
  • » The composition and decomposition of concurrent coplanar forces. - 1032.040F_0P
  • » The equilibrium conditions of a rigid body, Varignon's theorem. - 1032.035FP
  • » Checking the equilibrium conditions of a rigid body, Varignon's theorem. - 1032.035FAP
  • » Equilibrium of a rigid body, the interfixed lever, Varignon's theorem. - 1032.035AFP
  • » Equilibrium of a rigid body, the inter-resistant lever, Varignon's theorem. - 1032.035BFP
  • » Equilibrium of a rigid body applied, the interpotent lever, Varignon's theorem. - 1032.035CFP
  • » The driving force, the resisting force and the mechanical advantage of the inclined plane, simple machine. - 1032.034
  • » The equilibrium conditions of a mobile on an inclined plane. - 1032.043
  • » The equilibrium conditions for a suspended rigid body. - 1032.050_1
  • » The conditions of stable, unstable and indifferent static equilibrium for a supported spherical rigid body. - 1032.051_1
  • » Kepler's laws of planetary motion. - 1072.003
  • » The hydrostatic buoyant force, a quantity with direction, sense and module. - 1042.028A_2
  • » Archimedes' principle, buoyancy and its relation to the volume and density of the displaced liquid. - 1042.032A_2
  • » The pressure at a point in a liquid in equilibrium, Stevin's Theorem. - 1042.008B
  • » Pascal's Principle - 1042.024_2
  • » The Magdeburg Hemisphere Experiment and Atmospheric Pressure. - 1032.093
  • » Inflating a balloon, decreasing the external pressure. - 1032.094C
  • » the simple pendulum and the laws of the simple pendulum. - 1032.013P
  • » The mass-spring oscillator and the dynamic determination of the elasticity constant. - 1032.012AFP
  • » The simple pendulum and its laws. - 1032.013_1A
  • » Observing the oscillating motion, MHS, in a mass and helical spring system. - 1072.008A_2
  • » Dynamic determination of the spring constant in an oscillating system of mass and helical spring, MHS. - 1032.012A_2
  • » The MHS from an MCU. - 1072.004B
  • » Main characteristics of waves in a long helical spring. - 1072.011
  • » Determining the average speed of propagation of a pulse in a long helical spring. - 1072.011_1
  • » The phenomenon of reflection and interference in a transverse wave in a spring, standing wave. - 1072.011_2
  • » The standing wave on a string. - 1072.032E_1A
  • » Comparing standing waves on an elastic string at different tensions. - 1072.032E_2A
  • » The standing wave on a compound string. - 1072.032E_3A
  • » The influence of tension applied to a vibrating string on the frequency of the wave. - 1072.032E_4A
  • » Formation and propagation of two-dimensional waves on a liquid surface. - 1072.012H
  • » Determination of the propagation velocity of two-dimensional waves on a liquid surface. - 1072.013H
  • » The reflection of a two-dimensional wave from a liquid surface. - 1072.016H
  • » The refraction of two-dimensional waves at a liquid surface. - 1072.020H
  • » Diffraction of two-dimensional waves on a liquid surface. - 1072.024H
  • » The interference of two-dimensional waves on a liquid surface. - 1072.029H
  • » The Doppler effect in two-dimensional waves on a liquid surface. - 1072.030J
  • » Isothermal transformation, Boyle-Mariotte law. - 1052.032Q2
  • » The burning of a candle produces light and heat. - 0001.235
  • » Heat, temperature and heat storage in different materials. - 1052.003K1
  • » The thermal equilibrium temperature and the initial temperatures of the bodies in contact. - 1052.003K2
  • » Heat exchanges, water equivalent and the heat capacity of a calorimeter. - 1052.003K4
  • » Determining the specific heat, mass heat capacity, of a solid. - 1052.003K5
  • » The latent heat of fusion of ice. - 1052.003K6
  • » The thermoscope. - 1052.004B
  • » The difference between heat and temperature - 1052.004C2
  • » Boiling and condensation of water. - 1052.012A
  • » The physical states of water. - 1052.008_A3
  • » The variation of volume and the variation of the area of metallic bodies, as a function of temperature. - 1052.019
  • » Determination of the coefficient of linear expansion of copper. - 1052.020HA1
  • » Determination of the coefficient of linear expansion of brass. - 1052.020HA2
  • » Determination of the coefficient of linear expansion of steel. - 1052.020HA3
  • » Conduction, a means of propagation of heat, means of transmission, transfer of heat. - 1052.024A
  • » Convection, a means of heat propagation, means of heat transmission, heat transfer - 1052.024A1
  • » Radiation, a means of propagation of heat, means of transmission of heat, heat transfer. - 1052.024A2
  • » The influence of color on thermal insulation. - 1052.024A3
  • » Some energy transformations, electrical into light, thermal and mechanical. - 1052.026A
  • » Sound, a longitudinal mechanical wave. - 1072.059
  • » Sound, phenomena of interference, resonance and beat. - 1072.060
  • » Sound, Doppler effect. - 1072.061
  • » Light, the properties of rectilinear propagation and the independence of rays. - 1062.003E1B
  • » Reflection of light in a plane mirror and the laws of reflection. - 1062.003E2B
  • » An application of multiple reflections between plane mirrors. - 1062.003E3B
  • » Reflection in concave and convex spherical mirrors. - 1062.003E4B
  • » The refraction of light and its laws, the diopters. - 1062.003E5B
  • » Spherical lenses and their main characteristics. - 1062.003E6B
  • » Vision defects, correction of ametropia, hyperopia and myopia, with lenses. - 1062.003E7B
  • » Refraction in a 90 degree optical prism. - 1062.003E8B
  • » Equipotential surfaces, lines of force and electric field vector between point electrodes. - 1082.029C
  • » Equipotential surfaces, lines of force and electric field vector, between flat and parallel electrodes. - 1082.030C
  • » The Faraday cage and electrostatic shielding. - 1082.031C
  • » Discharge into air under atmospheric pressure. - 1082.012_1
  • » Configurations of the lines of force between electrodes, the lightning rod, the Faraday cage and the coaxial cable. - 1082.020A_1
  • » The electric potential and the amount of charge accumulated in the generator. - 1082.027_1
  • » Spark extension in the Van de Graaff generator and dielectric strength. - 1082.027A_1
  • » The principle of operation of the foil electroscope and the distribution of charges in a conductor. - 1082.004_1
  • » Turning on a fluorescent lamp without contact with the generator. - 1082.026_1
  • » Lighting a neon lamp without contact with the generator. - 1082.026A_1
  • » Making an electric fountain. - 1082.026B_1
  • » Repelling paper strips with generator. - 1082.026C_1
  • » Simulating a lightning rod with the generator. - 1082.026D_1
  • » Hair-raising with the electrostatic generator. - 1082.026E_1
  • » The turnstile, effect of electric wind, with the generator. - 1082.026F_1
  • » Series association of resistors, determining the equivalent resistor. - 1082.044F2
  • » Parallel association of resistors, determining the equivalent resistor. - 1082.044F3
  • » Lamp associations in series and parallel. - 1082.044C2
  • » The association of capacitors in series and parallel. - 1082.044J2
  • » The function of a fuse, the Joule effect. - 1082.044D2
  • » The measurement of the potential difference between two points in a DC circuit. - 1082.044G2
  • » The measurement of the intensity of electric current in different sections of a DC circuit. - 1082.044H2
  • » Ohm's first law, the relationship that links the three main electrical quantities. - 1082.044E2
  • » Determining the electrical power of components of a mixed electrical circuit. - 1082.092A_7
  • » Identifying a resistor that does not obey Ohm's law, non-ohmic resistor. - 1082.044I2
  • » The electrical resistance offered by a diode and its polarization. - 1082.044L2
  • » Kirchhoff's mesh law. - 1082.044M2
  • » Kirchhoff's knot law. - 1082.044M3
  • » Charging and discharging a capacitor, series RC circuit. - 1082.067B
  • » The action of the electromagnetic force acting on a conducting balance with electric current, immersed in a magnetic field. - 1082.137
  • » The electromagnetic force acting on a moving conductor carrying electric current, immersed in a magnetic field. - 1082.137_A
  • » A direct current electric motor. - 1082.153
  • » Electric current produces magnetic effects. - 1082.128
  • » Oersted's experiment and electromagnetism, folding table, inverter switch. - 1082.160
  • » Faraday's and Lenz's law of induction, electromagnetic phenomena. - 1082.128_1
  • » How the telegraph works. - 1082.144
  • » The operation of the electric bell. - 1082.148
  • » Biot-Savart law, electromagnetic phenomena. - 1082.164
  • » Magnetic induction around parallel circular coils carrying an electric current. - 1082.168
  • » Magnetic induction inside a solenoid carrying an electric current. - 1082.172
  • » Temporary magnet, electromagnet, ferromagnetic material. - 1082.176
  • » The electromagnet, a temporary magnet and magnetic permeability. - 1082.176_1
  • » The electrical voltage transformer. - 1082.176_3
  • » Determination of threshold voltage, Planck constant and characteristic curve in a green LED. - 1082.181D
  • » Determination of threshold voltage, Planck constant and characteristic curve in a red LED. - 1082.181E
  • » Electric current produces magnetic effects. - 1082.128F
  • » Oersted's experiment and electromagnetism, folding table, inverter switch. - 1082.160B
  • » Faraday's and Lenz's law of induction, electromagnetic phenomena. - 1082.128_1B
  • » Biot-Savart law, electromagnetic phenomena. - 1082.164C
  • » Magnetic induction around parallel circular coils carrying an electric current. - 1082.168B
  • » Magnetic induction inside a solenoid carrying an electric current. - 1082.172B
  • » Temporary magnet, electromagnet, ferromagnetic material. - 1082.176B
  • » The electromagnet, a temporary magnet and magnetic permeability. - 1082.176_1A

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