Items0

Set of mechanics of solids and fluids

Code: EQ056A

Assemble project
EQ056A.jpg
1032.005C_1
1032.005B_1
1052.032Q2_1
1032.048_1
1032.043_1
1032.034_1
1032.018_1
0001.275_1
0001.085_1
1032.046_1
1032.001_1
1042.004_1
1032.051_001
1032.002_001
1032.060_001
EQ056A_001.jpg
1032.031_002
1032.027A_002
1032.026A_002
1032.022A_002
1032.060_002
EQ056A_002.jpg
EQ056A_004.jpg
EQ056A_005.jpg
EQ056A_007.JPG
EQ056A_008.JPG
EQ056A_009.jpg
EQ056A_010.jpg
EQ056A_011.JPG
EQ056A_012.JPG
EQ056A_013.jpg

Function

Intended for experimental study, physics laboratory and carrying out physics experiments on: Material properties. Does the air we exhale contain water vapor? Force, mechanical deformations, plastic deformation and elastic deformation. Separating objects using a magnet. Range, uncertainty and speed in a horizontal throw. Kinematics. Reference frame, position, movement and trajectory. The MRU and its characteristics. The meeting of two mobiles in MRU with opposite directions. The relativity of movement according to the reference frame. The MCU, uniform circumferential movement. The tangential speed of transmission of the motor from the MCU of the disk. The combined movement of an MRU with an MCU. A way to determine a person's average reaction time. Dynamics. Friction forces and Newton's first law of motion. Determination of the coefficients of static, kinetic and sliding friction, on an inclined plane. Understanding the fixed pulley, a simple machine. Understanding the mobile pulley, a simple machine. The exponential pulley, a simple machine. The parallel block, a simple machine. The characteristic curve of the elongation of a helical spring and a rubber band, elastic hysteresis. Hooke's law in a helical spring. The association of helical springs in series. The association of helical springs in parallel. Statics. The conditions of equilibrium of a mobile on an inclined plane. The driving force, the resisting force and mechanical advantage of the inclined plane, a simple machine. Mass, weight and determination of the value of local g. The composition of concurrent coplanar forces, with 90° to each other. The composition and decomposition of concurrent coplanar forces with 60° to each other. The composition and decomposition of concurrent coplanar forces with 120° to each other. The composition and decomposition of concurrent coplanar forces. Conditions for stable, unstable and indifferent static equilibrium of a supported spherical body. Universal gravitation. Kepler's laws for planetary motion. Wave motion. The simple pendulum and its laws. Observing the oscillating motion of the mass in a system of mass and helical spring. The dynamic determination of the elastic constant in an oscillating mass and helical spring system, the SHM. The SHM from a MCU. The behavior of the elongation, velocity and acceleration of the projection in y, when the body transits in MCU through different quadrants. The simple pendulum and its laws. Conservation of Energy. Horizontal launch, range, uncertainty and horizontal momentum. Mechanical work and mechanical energy in a system of mass and helical spring. Hydrostatics. Buoyancy, a quantity with direction, sense and module. Archimedes' principle. The pressure at a point of a liquid in equilibrium, Stevin's theorem. Pascal's principle. The free surfaces of a liquid inside communicating vessels. Leveling points on a vertical screen. The specific weight of a liquid from another with known specific weight. The specific weight of alcohol from another liquid with known specific weight. Thermodynamics. Isothermal transformation, Boyle-Mariotte law, etc.


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Main experiments (visual example)

  • 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 equilibrium conditions of a mobile on an inclined plane. 1032.043
  • The motive force, resisting force and mechanical advantage of the inclined plane, a simple machine. 1032.034
  • 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
  • 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
  • Kepler's laws of planetary motion. 1072.003
  • The MHS from an MCU. 1072.004B
  • Getting to know the fixed pulley, a simple machine. 1032.026A
  • Getting to know the mobile pulley, a simple machine. 1032.027A
  • The parallel notebook, a simple machine. 1032.031
  • Conditions for stable, unstable and indifferent static equilibrium of a supported spherical body. 1032.051
  • the simple pendulum and its laws. 1032.013
  • The characteristic curve of elongation of a coil spring and a rubber belt, elastic hysteresis 1032.022A
  • Range, uncertainty and velocity in a horizontal launch. 1032.064_1
  • Horizontal launch, range, uncertainty and horizontal momentum. 1032.076_1
  • The pressure at a point in a liquid in equilibrium, Stevin's Theorem. 1042.008B
  • Pascal's Principle 1042.024_2
  • The free surfaces of a liquid within communicating vessels. 1042.004
  • The specific weight of a liquid from another of known specific weight. 1042.020
  • The specific gravity of alcohol from another liquid of known specific gravity. 1042.020A
  • Isothermal transformation, Boyle-Mariotte law. 1052.032Q2
  • Does the air we exhale contain water vapor? 0001.085
  • Force, mechanical deformations, plastic deformation and elastic deformation. 1032.018
  • Separating objects using a magnet. 0001.275
  • A way to determine a person's average reaction time. 1032.011
  • The exponential hoist, a simple machine. 1032.030A_1
  • Hooke's law on a helical spring. 1032.052A_1
  • The association of coil springs in series. 1032.053_1
  • The association of coil springs in parallel. 1032.053A_1
  • 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
  • Observing the oscillating motion of mass in a coil spring and mass system. 1072.008A_1
  • The dynamic determination of the spring constant in an oscillating mass and helical spring system, the SHM. 1032.012A_1
  • the simple pendulum and its laws. 1032.013P
  • Mechanical work and mechanical energy in a mass and helical spring system. 1032.056A_1
  • Thrust, a quantity with direction, sense and module. 1042.028A_1
  • Archimedes' principle. 1042.032A_1

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