Add to ORKGThe Sun does not return to the same position in the sky every 24 hours. At local noon, for example, the Sun will appear higher in the sky as we move from winter to summer solstice. In addition, and perhaps more surprisingly, solar days (the roughly 24 hours between subsequent local noons) vary in length, causing the Sun to be east or west of its location 24 hours prior. Over a year, this variation traces out a figure 8, known as an analemma, as shown in Fig.1. It can also be seen in the sundial in Fig. 2, where the gnomon incorporates the analemma to produce an accurate reading of local time
The purpose of this article is to describe the construction of a Sun Clock and Calendar (SCandC) tha...
Many misconceptions are recognized among the various groups of students, especially in the elementar...
In this activity students gather and interpret their own data about the Sun's apparent path across t...
The Sun does not return to the same position in the sky every 24 hours. At local noon, for example, ...
Abstract. The Earth’s progress around the Sun varies through the year. Combined with the tilt of the...
This website gives both a mathematical and logical explanation of the analemma, which is seen on man...
The present work has as main objective to build a model to identify the sun apparent movement (SAM) ...
Every people, in every historical period, developed methods to measure Time both at a daily scale an...
The observation that the shadows of objects change during the course of the day and also for a fixed...
A topic often taught in introductory astronomy courses is the changing position of the Sun in the sk...
The present work has as main objective to build a model to identify the sun apparent movement (SAM) ...
Night and day are determined by the Sun's presence or absence in the sky. As Earth rotates, the port...
In this activity students progressively add to their Earth-Moon-Sun (EMS) model as they employ it to...
This Java applet shows the analemma and where the Sun is positioned in varying areas of the world. T...
Analemmaa is a change of sun’s position which is inconstant when it is observed in certain time and ...
The purpose of this article is to describe the construction of a Sun Clock and Calendar (SCandC) tha...
Many misconceptions are recognized among the various groups of students, especially in the elementar...
In this activity students gather and interpret their own data about the Sun's apparent path across t...
The Sun does not return to the same position in the sky every 24 hours. At local noon, for example, ...
Abstract. The Earth’s progress around the Sun varies through the year. Combined with the tilt of the...
This website gives both a mathematical and logical explanation of the analemma, which is seen on man...
The present work has as main objective to build a model to identify the sun apparent movement (SAM) ...
Every people, in every historical period, developed methods to measure Time both at a daily scale an...
The observation that the shadows of objects change during the course of the day and also for a fixed...
A topic often taught in introductory astronomy courses is the changing position of the Sun in the sk...
The present work has as main objective to build a model to identify the sun apparent movement (SAM) ...
Night and day are determined by the Sun's presence or absence in the sky. As Earth rotates, the port...
In this activity students progressively add to their Earth-Moon-Sun (EMS) model as they employ it to...
This Java applet shows the analemma and where the Sun is positioned in varying areas of the world. T...
Analemmaa is a change of sun’s position which is inconstant when it is observed in certain time and ...
The purpose of this article is to describe the construction of a Sun Clock and Calendar (SCandC) tha...
Many misconceptions are recognized among the various groups of students, especially in the elementar...
In this activity students gather and interpret their own data about the Sun's apparent path across t...