SU1040509A1 - Physics demonstration apparatus - Google Patents

Abstract

DEMONSTRATION DEVICE IN PHYSICS, containing a lightly mounted light source, a capacitor, and an optical element mounted on a recursively mounted on an optical bench. The basement is a photocell and a voltmeter, characterized in that it has a glass plate and a screen for projecting the scale of the voltmeter and the light flux to extend the demonstration capabilities and increase the visibility of the optical element at the axis of the light flux of the latter. reflected from the plate, while the optical element is made in the form of an interference light filter. (L o iU o U: s

Description

1 Ognosigs for educational demonstration devices in physics. A demonstration device in physics is known, containing a light source sequentially installed on an optical bench,: a condenser, an optical one; an element mounted on a rotary base, a photocell and a voltmeter. A disadvantage of the known device is that it has limited diagnostic capabilities and little consistency. The purpose of the invention is the expansion of the demonstration possibilities and the appearance of the instrument. This goal is achieved by the fact that the demonstration device in physics, containing a light source, a condenser, an optical element mounted on a rotating base, a photocell and a voltmeter, is placed between the photocell and the optical element under the angle to the axis of the light flux of the latter. a glass plate and a screen for projecting the scale of a voltmeter and the luminous flux reflected from the plate, while the optical element is made in the form of an interference filter but. The drawing shows a diagram x of the instrument being edited. The device contains a source of light 1, a sensor 2, an interference light filter 3, a rotary base 4, a glass plate 5, the surface of which has the ability to partially reflect the incident light flux, photographic element 6, an electrostatic voltmeter 7 with a projected scale, screen 8. Device works as follows. 92 The light flux from source 1, passing through the condenser 2, and the interference optical filter 3, is divided into two beams by means of a glass plate 5 located at an angle of the axis of the light flux — one monochromatic beam falls onto the photocell 6, and the other is projected onto the screen 8. At the same time With this, the scale of the voltmeter 7 is projected onto the screen 8. The device allows to demonstrate the following regularities of the photoelectric effect: the limiting voltage does not depend on the illumination. For this, the radiation intensity is changed and the indications of the voltmeter 7 on the screen 8 are observed. At a certain intensity, the indications of the voltmeter 7 reach the highest value. It can be seen on screen 8 that the voltmeter readings do not change as the intensity changes. In this case, the limiting voltage of the line But depends on the frequency. To demonstrate this, the frequency of the light is varied by turning the interfering light filter and recording the voltmeter. . The presence of the long-wave red border of the photoelectric effect. By turning the interfacial filter, the wavelength of the exciting light is increased. The frequency at which the voltmeter needle indicates a zero voltage is measured. With further change (decrease) in the frequency, which is judged by changing the screen color, the reading of the voltmeter 7 is not. change. The proposed invention allows, in the course of irradiation, to demonstrate physical phenomena to large groups of listeners, as well as to reflect the dependences of the parameters characterizing these phenomena.

Claims (1)

DEMONSTRATION INSTRUMENT IN PHYSICS, containing a light source, a capacitor, an optical element mounted on a surface, sequentially mounted on the optical bench. company base ,, - photocell and voltmeter ', characterized in that, in order to expand the demonstration capabilities and increase visibility, it has a glass plate located between the photocell and the optical element at an angle to the axis of the light flux of the latter and a screen for projecting the scale of the voltmeter and light the flow reflected from the plate, while the optical element is made in the form of an interference filter. 1 1040509 2