Updated: 1/15/2020
The laboratory conducts a laboratory workshop on the courses "Mechanics", "Fundamentals of Experimental Physics".
List of laboratory work in the course "Mechanics":
- Measurement of the density of solids of the correct geometric shape.
- Checking the laws of accelerated motion using the Atwood instrument.
- Measurement of sliding friction coefficient by means of tribometer.
- Measurement of rolling friction coefficient by means of an inclined pendulum.
- Measurement of the Young's modulus by the strain strain method.
- Measurement of acceleration of free fall by means of a mathematical pendulum with a uniform suspension.
- Measurement of free fall acceleration by means of a mathematical pendulum with a bifilar suspension.
- Verification of the basic law of rotational motion with the help of the Oberbeck device.
- Measurement of moment of inertia of a bicycle wheel by its method of rotation.
- Measurement of moment of inertia of a body by means of a physical pendulum.
- Determination of moments of inertia of bodies by means of a rotary pendulum.
- The study of flat motion with the help of the Maxwell pendulum.
- Determining the velocity of the ball using a ballistic pendulum.
- Measurement of free fall acceleration by means of a reversible pendulum.
- Checking the law of conservation of momentum.
- Study of the elastic and elastic impact of two balls.
- Checking the Bernoulli equation for steady-state fluid flow.
- Investigation of oscillatory system with two degrees of freedom.
Molecular Physics Laboratory
The laboratory conducts a laboratory workshop on the course "Molecular Physics and Thermodynamics"
List of laboratory work in the course "Molecular Physics and Thermodynamics":
1. Determination of the ratio Cp / Cv for air by the Clement-Desorma method.
2. Determination of the coefficient of surface tension of the liquid by the method of ring separation.
3. Determination of the coefficient of surface tension of the liquid from temperature by the method of Cantor-Rebinder.
4. Determination of the heat of vaporization of the liquid.
5. Determination of entropy change in real systems.
6. Investigation of the first-order phase transition and determination of the specific heat of tin melting.
7. Determination of the linear expansion coefficient of solids.
8. Determination of the viscosity coefficient by the Stokes method.
9. Determination of the specific heat of the solid.
10. Determination of the coefficient of internal friction of the air, the length of free path and the effective diameter of the air molecules.
11. Determination of relative humidity by the August psychrometer.