Physics master unit with hydrodynamics, sensors, software and interface

Function

Study of the mechanics of solids and fluids, optics, thermodynamics, waves, electricity, electromagnetism, agriculture environmental physics, modern physics, magnetism, kits of (physics), data acquisition (computer assisted), architecture, engineering (engineering physics, transport phenomena) and hydrodynamics.

Note: To be connected to the timers with scrolling data or the CidepeLab interface.

Key Experiments

  • » Significant digits and uncertainties - 1032.003_0
  • » The relativity of motion according to the reference - 1032.002
  • » What are the URM characteristics? (multi-chronometer) - 1032.005B1
  • » The meeting of two moving objects in URM with opposite directions, on the same trajectory, multi-chronometer - 1032.005C1
  • » The VURM and its characteristics, multi-chronometer - 1032.006_D
  • » The free fall motion with trial body of 10 equal intervals - 1032.010K1
  • » The determination of the scope and its uncertainty in a horizontal launch of a projectile. - 1032.064A
  • » The launch reach and velocity in a shooting at 45 degrees - 1032.064A1
  • » The reach in relation to the launch angle, keeping the initial velocity constant - 1032.064A4
  • » The UCM, uniform circular motion - 1032.060_1
  • » The UCM and its characteristics - 1032.060B
  • » Coupling between pulleys, belt and gears - 1032.041C
  • » Coupling between pulleys and gears - 1032.041C_0
  • » Equilibrium conditions of the rigid body, Varignon´s theorem - 1032.035F
  • » The equilibrium of a moving object on an inclined plane - 1032.043
  • » The composition and decomposition of competing coplanar forces - 1032.040F_0
  • » The composition and decomposition of competing coplanar forces with 120° between each other - 1032.040F
  • » The balance of the rigid body, the interfix lever - 1032.035AF
  • » Equilibrium of a rigid body applied to inter-resistant lever - 1032.035BF
  • » Equilibrium of a rigid body applied to the interpotent lever - 1032.035CF
  • » Mass measurement, weight measurement and determination of the local g value - 1032.039
  • » Exploring the laws of dynamics with the retro thrust car - 1032.086
  • » The fundamental law of dynamics, Newton´s second law, multi-chronometer - 1032.079_A1
  • » The centripetal force in relation to angular velocity, keeping m and R constant (interface) - 1032.060A3
  • » A load elevator system with fixed pulleys and beam - 1032.040E
  • » A load elevator system with fixed pulleys, movable pulleys and beam - 1032.040E2
  • » The conservation of momentum in an inelastic collision, interface - 1032.005_M
  • » The conservation of momentum in an elastic collision, interface - 1032.005_N
  • » The principle of conservation of mechanical energy - 1032.010K3_1
  • » The conservation of angular momentum, with sensor and multi-chronometer - 1032.060C6
  • » The conservation of mechanical energy in a launch at 45 degrees - 1032.064D
  • » The determination of the initial velocity of a projectile, considering the amount of linear movement, ballistic pendulum - 1032.065A
  • » The initial velocity of a projectile considering the amount of angular movement, with ballistic pendulum - 1032.065B
  • » Determining the moment of inertia using the period of oscillation of the ballistic pendulum plus sphere - 1032.065C
  • » Rigid bodies, conservation of mechanical energy, with sensors - 1032.072A1
  • » The experimental determination of the moment of inertia of a bar, parallel axis theorem, Steiner´s theorem or Huygens-Steiner theorem, with sen - 1032.088E_1
  • » The experiment of the Magdeburg hemispheres and atmospheric pressure - 1032.093
  • » Archimedes´ principle - 1042.032
  • » Pascal´s law, using water - 1042.024_2
  • » The pressure at a point of a liquid in equilibrium - Stevin´s principle - 1042.008B
  • » The fundamental principle of hydrostatic (Stevin principle) with open-tube manometer - 1042.101A
  • » The fundamental principle of hydrostatic (Stevin principle) with differential sensor - 1042.102A
  • » Fluid velocity through a small orifice - 1042.103A
  • » Volumetric flow in incompressible fluids - 1042.104A
  • » The thermal capacity (heat capacity) of a colorimetric body in a copper A alloy (dry) - 1052.007A
  • » The determination of the equivalent in water of a calorimeter - 1052.003E
  • » The specific heat (mass heat capacity) of a colorimetric body in a copper A alloy (dry) - 1052.007D
  • » The variation in length of brass in relation to the initial length, for the same temperature variation - 1052.021F2
  • » The determination of the coefficient of linear dilation of a brass alloy - 1052.021F3
  • » The influence of color on thermal insulation, black body - 1052.024A3
  • » Study of gases - Isothermal transformation, Boyle-Mariotte´s Law - Sensor - 1052.032Q1
  • » The reflection of a two-dimensional wave in a liquid medium, using electronic stroboscope (estroboflash) - 1072.016I
  • » The refraction of a two-dimensional wave in a liquid medium, using electronic stroboscope (estroboflash) - 1072.020I
  • » The diffraction in two-dimensional waves in a liquid medium using electronic stroboscope (estroboflash) - 1072.024I
  • » Interference with two-dimensional waves in a liquid medium, using electronic stroboscope (estroboflash) - 1072.029I
  • » The standing wave on the string A, no tensiometer - 1072.032E_1
  • » Comparing the standing wave on the rope A and rope B, without tensiometer - 1072.032E_2
  • » The standing wave in the composite rope, without tensiometer - 1072.032E_3
  • » Taylor´s expression applied to a vibrating string, with tensiometer - 1072.032E_4
  • » Taylor´s expression in vibrating strings of different linear densities, with tensiometer - 1072.032E_5
  • » Standing wave in a coil spring, without tensiometer - 1072.032E_6
  • » Standing waves in coil springs, with tensiometer - 1072.032E_7
  • » The simple harmonic motion, from the UCM, using arrows - 1072.004B
  • » MHS in a mass and coil spring system - 1072.008_A
  • » The harmonic motion (HM) damped in a mass and coil spring system - 1072.009_A
  • » The underdamped angular harmonic motion, with sensor and software - 1072.037D
  • » The determination of the torsional elastic constant of a wire by dynamic method - 1032.090B1
  • » The behavior of the torsional elastic constant in relation to wire length by dynamic method, with sensor and software - 1032.090D3
  • » The oscillation center of the physical pendulum in a bar shape, with interface - 1032.013_D
  • » The frequency, the period, and the critical angular velocity of the conical pendulum, with sensor and multi-chronometer - 1032.060C7
  • » Sound sources, musical sound, noise, parameters of a sound wave, physiological qualities of sound - 1072.067B
  • » The reverberation of sound - 1072.069B
  • » The audible beat - 1072.072B
  • » Resonance in open acoustic tubes - 1072.074B
  • » Determining the velocity of sound in a closed acoustic tube - 1072.078B
  • » The antinodes and the nodes of the standing wave inside an open tube, with sensor - 1072.079B
  • » The beat phenomenon, with sensor - 1072.080B
  • » Resonance, interference and beat, with tuning forks - 1072.060
  • » The Doppler effect, with tuning fork - 1072.061
  • » The reflection in the plane mirror - 1062.004S03
  • » An application of multiple reflections between flat mirrors - 1062.004S04
  • » The reflection in concave and convex spherical mirrors - 1062.004S05
  • » The refraction of light and its laws, the diopters - 1062.004S06
  • » The refraction and dispersion of light in optical prisms of 90 and 60 degrees - 1062.004S07
  • » The spherical lenses and its main characteristics - 1062.004S08
  • » The relationship between the object lens and the image generated by the lens - 1062.004S09
  • » Vision defects, correction of hyperopia and myopia with lenses - 1062.004S10
  • » The measurement of the average wavelength of the colors of the continuous spectrum of light, interference - 1062.004S11
  • » The total reflection, fiber optics - 1062.004S12
  • » Comparing the polarization of the laser diode and polychromatic light. - 1062.003N
  • » Diffraction of laser by grating, lattice constant 1.00 x 10-6 m - 1062.003M1
  • » The measurement of the diameter of the thread of an opaque fabric to the laser - 1062.003M2
  • » Dithering derived by light superposition - 1062.052A
  • » Configurations of the power lines between submerged electrodes, lightning rods, Faraday cage and coaxial cables - 1082.020A
  • » The electric potential and the amount of accumulated charge in the generator - 1082.027
  • » Playful experiment: Lighting a neon lamp - 1082.026A
  • » Playful experiment: Simulating a lightning rod - 1082.026D
  • » Playful experiment: One effect of "electric wind" - the tourniquet - 1082.026F
  • » The extent of the spark in the Van de Graaff generator and dielectric strength - 1082.027A
  • » The equipotential lines and surfaces between punctate electrodes - 1082.029C
  • » Faraday cage and electrostatic shielding - 1082.031C
  • » The equipotential lines and surfaces between ring electrodes - 1082.032C
  • » The electrical resistance, Ohm´s law, with sensors - 1082.056B_2
  • » The combination of lamps in series, with sensor - 1082.044_E
  • » The combinations of lamps in parallel, with sensor - 1082.044_E1
  • » The mixed combination of resistors - 1082.076_D3
  • » The identification of a non-ohmic resistor, with sensors - 1082.064B_2
  • » The potentiometer as voltage divider, with sensor - 1082.076_F2
  • » The function of the diode in a circuit - 1082.088_D
  • » Kirchhoff´s mesh law, with sensor - 1082.088_F
  • » Kirchhoff´s node law, with sensor - 1082.088_F0
  • » The RC circuit, with sensor - 1082.076_G2
  • » Identification of the magnetic poles and field lines in a magnetized object, using sensor - 1082.128D_1
  • » The Oersted experiment and electromagnetism with projectable table - 1082.128_0
  • » The Oersted experiment with magnetic sensor - 1082.128D_2
  • » The current meter and the use of the torsion balance in evaluation of B - 1082.180B
  • » The action of the electromagnetic force acting on a conductor immersed in a magnetic field, when an electric current travels through it - 1082.136
  • » The electromagnetic force that acts in a conductor traversed by an electric current and immersed in a magnetic field - 1082.136_A
  • » The magnetic field generated by an electric current in a rectilinear conductor - 1082.161A
  • » The magnetic field between two parallel and rectilinear conductors traversed by electric currents - 1082.161B
  • » The magnetic field at the center of a circular loop traversed by an electric current - 1082.161C
  • » The magnetic induction between two parallel and rectilinear conductors traversed by electrical currents using magnetic sensor - 1082.128D_5
  • » The magnetic induction inside a solenoid traversed by an electric current - 1082.161D
  • » The electromagnetic phenomena - 1082.161E
  • » The mapping of the magnetic field lines in a Helmholtz coil - 1082.128D_6
  • » A DC electric motor - 1082.152
  • » The electrical transformer which elevates and reduces voltage - 1082.161E1
  • » The influence of surface coating color on thermal comfort, black and white disks and sensor - 1093.113
  • » The influence of surface coating on thermal comfort, with interface - 1121.021
  • » The determination of Planck´s constant with the voltage and current sensors - 1082.182
  • » The light emission caused by high voltage in a rarified Geissler tube - 1121.010_E1
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