SU1580427A1 - Training aid on geography and astronomy - Google Patents

Abstract

The invention relates to educational devices and allows for a consistent demonstration of the invariance of the inclination of the earth's axis to the plane of the ecliptic. A training device in geography and astronomy contains a stand 1 with a globe 3 mounted on axis 2, vertically positioned inside the globe, graduated from 0 to 66.5 ° sector 4 and an ecliptic model made in the form of a disk 5 located under the sector, while the sphere of the globe is made of transparent material and consists of two connected hemispheres. By alternately placing the globe 3 at the points of the summer and winter sunrises, the spring and autumn equinoxes, demonstrate that all periods of the Earth’s orbit around the Sun, simulated by a light source, the angle of inclination of the earth axis 2 to the ecliptic plane remains unchanged and equal to 66.5 °. 5 il.

Description

The invention relates to educational devices and can be used, for example, in studying the properties of the ecliptic in geography and astronomy lessons.

The aim of the invention is to increase the consistency in studying the understanding of the ecliptic.

FIG. 1 shows the instrument, common Zid in FIG. 2 - graduated sector, general view | FIGS. 3 and 4 show a graded sector and a disk, the general view of FIGS. 5 scheme of use of the device.

A training device in geography and astronomy contains a stand 1 with a globe 3 mounted on axis 2, vertically positioned inside a globe, graduated from 0 to 66.5 ° sector k, connected by one straight edge to axis 2, and an ecliptic model made in the form of sector of the disk 5 connected to the second edge of sector A, while the globe 3 is made of a transparent material and consists of two hemispheres 6 and 7 interconnected

In addition, the device can be an additional version of the installation and installation of a graduated disk inside the globe. For this, an additional vertical disk 8 is used, having graduated (pasted) on it graduated from 0 to 66.5 sector 9, similar to sector 4, hole 10 for its installation on axis 2 of the globe and slot 11 for connecting it to disk 5, in which slot 12 is also made, the width of these slots being equal to the thickness of the connected disks, and the length equal to the radius of these disks.

In order to make the angle of inclination d of the earth's axis 2 to the ecliptic plane 5 equal to 66.5, the magnitude of this angle is indicated by the sighting line 13 for sector k.

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The instrument is used as follows.

Before the start of the demonstration, a circle I is placed on a horizontal surface (for example, a tablet), the points of summer A and winter B sunflower, spring B and autumn G equinox are noted, and a source 15 of light imitating the Sun is installed in the center of the circle.

Alternately mounted to points A, B, C, D, globe 3, students are explained, for example, that as the Earth moves around the Sun, the latter’s rays illuminate the Earth differently and one of the reasons for this is the tilt of the earth’s axis, 2 to the ecliptic plane 5, moreover, the angle of inclination o (the earth's axis to the ecliptic plane 5 during all periods of the Earth’s revolution around the Sun remains unchanged and is equal to 66.5 °.

The use of the invention allows the HI to demonstrate to the trainee the neubreness of the angle of inclination of the earth's axis to the plane of the ecliptic by placing a sector with an angle on it directly in the area of its measurement.

Claims (1)

Invention Formula An educational device in geography and astronomy, containing a stand with a globe mounted on an axis and a model of an ecliptic placed inside it, characterized in that, in order to increase its consistency in studying the understanding of the ecliptic, it has a graduated from 0 to 66.5 ° sector placed between the axis and the model of the ecliptic, the model of the ecliptic is made in the form of a disk, while the globe is made of a transparent material and consists of two interconnected hemispheres. I U | f CN do -L CO C3 to -J " FIG. five