Presentation is loading. Please wait.

Presentation is loading. Please wait.

Early Scientific Measurements Aimed at determining sizes and relative positions of dominant celestial bodies (Earth/Moon/Sun) Performed by Greek Geographers.

Published byDoreen Stevens Modified over 8 years ago

Similar presentations

Presentation on theme: "Early Scientific Measurements Aimed at determining sizes and relative positions of dominant celestial bodies (Earth/Moon/Sun) Performed by Greek Geographers."— Presentation transcript:

1 Early Scientific Measurements Aimed at determining sizes and relative positions of dominant celestial bodies (Earth/Moon/Sun) Performed by Greek Geographers and Mathematicians in 365-240 BC Effectively illustrate power of mathematics in science Instructions to complete handout:  On each of the 5 measurement pages:  Label and complete the diagram  Illustrate how the diagram and the observations can be used to arrive at an estimate of the indicated quantity  On the last page  Determine the accuracy of these early measurements by comparing them to their currently accepted values Aristarchus of Samos

2 Diameter of Earth INITIAL Shadow Length S 1 OBSERVATIONS: --------------------- = --- = -----; Arclength = L = 950,000 meters Pillar Height P 8.0 S P L Scenario: At local noon on an equinox light rays from the sun do cast a shadow for an upright pillar that is not located at the equator, but on the equator no shadow is cast.

3 Diameter of Moon NEWSolar Eclipse – Moon shadow tapers to a point on Earth OBSERVATIONS:Lunar Eclipse – Earth shadow tapers to width of 2.5 Moon Diameters Scenario: During a solar eclipse, the shadow of the moon tapers to a point on the surface of the earth. However, during a lunar eclipse, the shadow of the earth tapers to 2.5 moon diameters.

4 Distance Between Earth and Moon Coin Diameter Dia Coin 1 NEW OBSERVATION: -------------------------- = ------------ = ----- Earth-Coin Distance L Earth-Coin 110 Scenario: When the moon is full, a small coin can be located an appropriate distance from our eye to perfectly block out the moon.

5 Distance Between Earth and Sun NEW OBSERVATIONS:SEM Angle = 87 Degrees EMS Angle = 90 Degrees Scenario: When the phase of the moon is a perfect “quarter” the Earth- Moon-Sun angle will be 90 degrees, resulting in the three celestial bodies lying at the vertices of a right triangle.

6 Diameter of the Sun Sun Image Diameter Dia Sun Image 1 NEW OBSERVATION: ------------------------------ = --------------- = ----- Earth-Paper Distance L Earth-Paper 110 Scenario: When the light from the sun passes through a pin hole in a piece of paper and shines on the ground, a set of similar triangles is created.

7 Accuracy of These Measurements The currently accepted values for the 5 quantities measured by these early scientists are as follows (to two significant digits): Dia Earth = 13,000 Km Dia Moon = 3,600 KmL Earth-Moon = 390,000 Km Dia Sun = 1,400,000 KmL Earth-Sun = 150,000,000 Km Absolute and Relative Error are often used to quantify the level of agreement between estimates and accepted values:

8 Illustrate the level of agreement between the currently accepted values and estimates of early scientists by completing the following table (remember: 1 Km = 1000 m) Measurement Accepted Value (Km) Estimated Value (Km) Relative Error (%) Dia Earth 13,000 Dia Moon 3,600 L Earth-Moon 390,000 L Earth-Sun 150,000,000 Dia Sun 1,400,000

Download ppt "Early Scientific Measurements Aimed at determining sizes and relative positions of dominant celestial bodies (Earth/Moon/Sun) Performed by Greek Geographers."

Similar presentations

The Sun – Earth - Moon System

The Sun – Earth - Moon System
IMPACT CRATER Bowl-shaped depressions on the surface of the Moon that are formed by meteor and comets crashing into the Moon.

IMPACT CRATER Bowl-shaped depressions on the surface of the Moon that are formed by meteor and comets crashing into the Moon.
Measuring the diameter of the Sun. Aristarchus Aristarchus (310 B.C. - 230 B.C.) was a Greek astronomer and mathematician who was the first to propose.

Measuring the diameter of the Sun. Aristarchus Aristarchus (310 B.C B.C.) was a Greek astronomer and mathematician who was the first to propose.
Nature of Science Slide 1 Nature of Science. Scientific Measurements “No amount of experimentation can ever prove me right; a single experiment can prove.

Nature of Science Slide 1 Nature of Science. Scientific Measurements “No amount of experimentation can ever prove me right; a single experiment can prove.
Solar Eclipse Size of Sun, Earth, etc. Lecture 6.

Solar Eclipse Size of Sun, Earth, etc. Lecture 6.
Solar and Lunar Eclipses

Solar and Lunar Eclipses
The Earth-Moon-Sun System

The Earth-Moon-Sun System
Earth, Moon & Sun Moon Phases & Eclipses. Essential Standards 6.E.1Understand the earth/moon/sun system, and the properties, structures and predictable.

Earth, Moon & Sun Moon Phases & Eclipses. Essential Standards 6.E.1Understand the earth/moon/sun system, and the properties, structures and predictable.
Solar and Lunar Eclipses! What causes Solar and Lunar Eclipses?

Solar and Lunar Eclipses! What causes Solar and Lunar Eclipses?
Solar and Lunar Eclipse Terms

Solar and Lunar Eclipse Terms
The Moon - Earth’s Satellite Earth’s satellite. The 8 phases of the moon New Moon Waxing crescent 1 st quarter Waxing Gibbous * Full Moon Waning gibbous.

The Moon - Earth’s Satellite Earth’s satellite. The 8 phases of the moon New Moon Waxing crescent 1 st quarter Waxing Gibbous * Full Moon Waning gibbous.
Method: by Ancient Greeks

Method: by Ancient Greeks
Earth and Space Science Origin of Modern Astronomy Chapter 22.

Earth and Space Science Origin of Modern Astronomy Chapter 22.
The Earth-Moon Relationship

The Earth-Moon Relationship
Astronomy: Part 2. Phases of the Moon The Moon passes through four major shapes during a cycle that repeats itself every 29.5 days. The phases always.

Astronomy: Part 2. Phases of the Moon The Moon passes through four major shapes during a cycle that repeats itself every 29.5 days. The phases always.
Phases of the Moon and Eclipses LunarPhasesandEclipse.ppt.

Phases of the Moon and Eclipses LunarPhasesandEclipse.ppt.
Eclipses What is an eclipse? The total or partial obscuring of one celestial body by another. Eclipses occur when the moon’s orbit which is tilted becomes.

Eclipses What is an eclipse? The total or partial obscuring of one celestial body by another. Eclipses occur when the moon’s orbit which is tilted becomes.
Solar and Lunar Eclipses. Eclipse: The total or partial obscuring of one celestial body by another… The obscuration can be either One celestial body blocking.

Solar and Lunar Eclipses. Eclipse: The total or partial obscuring of one celestial body by another… The obscuration can be either One celestial body blocking.
Eclipses. The Sun and Moon occasionally line up so that we have an eclipse. Revolution of the moon causes eclipses. An eclipse is defined as an astronomical.

Eclipses. The Sun and Moon occasionally line up so that we have an eclipse. Revolution of the moon causes eclipses. An eclipse is defined as an astronomical.
Problem Solving. Reminder: Quantitative Reasoning Amazingly powerful tool to understand the world around us Fundamentals: –Ratios –Graphs –Area &Volume.

Problem Solving. Reminder: Quantitative Reasoning Amazingly powerful tool to understand the world around us Fundamentals: –Ratios –Graphs –Area &Volume.

Similar presentations

Ads by Google