Intended for experimental study, renewable energy laboratory and conducting renewable energy experiments on: Renewable energies. Photovoltaic energy. Using solar energy and an electrical energy accumulator to light a lamp. The conversion of electrical energy into light energy. Some factors that influence the efficiency of the photovoltaic panel. The conversion of light energy into electrical energy. Observing Newton's disc attached to the electric motor, maintaining the distance from the illuminator to the panel, without a filter. The illuminance or illumination of the luminous flux. Observing Newton's disc attached to the electric motor, maintaining the distance from the illuminator to the panel, with a filter. The absorbance of light energy. The transmittance of light energy. Observing Newton's disc attached to the electric motor, varying the angle of incidence, without a filter. Verifying the conditions for maximum efficiency of a photovoltaic solar panel. Observing Newton's disc attached to the electric motor, varying the electrical resistance of the circuit. What is meant by illuminance, illumination, of the luminous flux. The advantages of using an energy accumulator in a solar panel circuit with a load. Preparing the charge accumulator. Measuring the voltage variation across the electrical energy accumulator associated with the solar panel. The characteristic curve of the photovoltaic solar panel and its efficiency. Measuring electrical currents and voltages with perpendicular lighting. Constructing the data table and graph. Calculation of the solar panel's form factor. Determining the resistance and electrical power of the solar panel for different currents and voltages, perpendicular incidence. Measuring voltage and current, perpendicular incidence, increasing the distance. Determining the resistance and electrical power of the solar panel for different currents and voltages, perpendicular incidence. Measuring voltage and current, perpendicular incidence maintaining the distance, varying the angle. Determining the resistance and electrical power of the solar panel for different currents and voltages, perpendicular incidence. Determining the area of incidence of the panel. Solar radiation. Determining the efficiency of the photovoltaic panel. Using solar energy to power a car with an electric motor. Connecting the car with an electric motor to the solar panel. Energy transformations. Using solar energy to power an electric Newton's disc. Connecting the electric Newton's disc to the solar panel. Light and optics. The composition of colors on a Newton's disc. Connecting the electric Newton's disc to the solar panel. The decomposition of light, color dispersion. The composition of white light (main polychromatic light) and Newton's disc. The dwell time, persistence time, of the image on the retina. The superposition of images and the resulting color. Wind energy. Generation of electrical energy by means of a wind turbine and the importance of the blade angle. What is meant by wind energy. Wind farm. The importance of the blade angle in wind energy generation. Using the consumer unit to evaluate electricity consumption. What is wind? The energy of moving air. The gearbox of a wind turbine. Gear coupling. The frequencies and angular velocities in the gears of an amplifier. The transmission ratio between gears. The power, electrical frequency, and rotational speed of the wind turbine. The influence of the blade angle on wind energy generation. The pitch angle of the blades. Varying the pitch angle and measuring electrical voltages. Determining the electrical power of the wind turbine. Determining the electrical frequency and rotational speed of the wind turbine shaft, etc.
Renewable energies, matter and energy, energy transformation and electricity generation.