Moonstone is a unique gemstone that is known for its mesmerizing appearance and its strong association with the divine powers of the moon. This gemstone is believed to possess various mystical and spiritual qualities that can bring about positive changes in one's life. One of the main beliefs associated with moonstone is its ability to enhance intuition and psychic powers. It is said to open the mind to higher realms of consciousness and enable the wearer to connect with their inner self. This can lead to a heightened sense of awareness, intuition, and spiritual enlightenment. Moonstone is also believed to have a calming and soothing effect on the emotions.
During the Yule celebrations someone would be selected to dress up as ‘old man winter,’ a white-bearded man dressed in a hooded fur coat, thought to represent Odin. This individual would travel around the community, joining in with the various celebrations. This figure, when introduced into England while parts were under Viking rule, soon became the modern ‘Father Christmas.’
During the Yule celebrations someone would be selected to dress up as old man winter, a white-bearded man dressed in a hooded fur coat, thought to represent Odin. The slide rule eased the addition of the two logarithmic displacements of the numbers, thus assisting with multiplication and division in calculations.
Moonstone is also believed to have a calming and soothing effect on the emotions. It is said to help balance emotions and bring about a sense of peace and tranquility. This can be particularly beneficial for individuals who struggle with stress, anxiety, or emotional instability.
Magic tule logs
MAIN FUNCTIONAL REQUIREMENT: Perform simple mathematical functions
DESIGN PARAMETER: Sliding mechanical ruler
GEOMETRY/STRUCTURE:
This is a picture of a basic beginners slide rule for various math operations including mutiplication/division and square/squareroot:
| Components of A Slide Rule Also See As VRML (lets you walk around, zoom in/out around a 3D model) |
The slide rule is actually made of three bars that are fixed together. The sliding center bar is sandwiched by the outer bars which are fixed with respect to each other. The metal "window" is inserted over the slide rule to act as a place holder. A cursor is fixed in the center of the "window" to allow for accurate readings.
The scales (A-D) are labeled on the left-hand side of the slide rule. The number of scales on a slide rule vary depending on the number of mathematical functions the slide rule can perform. Multiplication and division are performed using the C and D scales. Square and square root are performed with the A and B scales. The numbers are marked according to a logarithmic scale. Therefore, the first number on the slide rule scale (also called the index) is 1 because the log of zero is one.
EXPLANATION OF HOW IT WORKS/ IS USED:
The slide rule also works for numbers larger than what is represented on the scale of the ruler. For example, double digit numbers can be represented by mentally "moving" the decimal places.
| Calculating 30 x 20 on a Slide Rule |
- The A and B scales are the squares of the D and C scales, respectively. Example: To determine the square root of 9, look on the A scale for 9.
- Find the answer, 3, on the D scale below the A scale.
IMPORTANT NOTE: There may be confusion about which side of the A scale to use. For example, the square root of 4 is 2 and the square root of 400 is 20 - both calculations can be found using the left side of the A scale. However, to find the square root of 40, it is necessary to use the right side of the scale to get the correct answer of ~6.3. The simplest method to determine which side of the A scale to use is to write the number in standard scientific notation form (ie n.nnn x 10^exp). If the power of ten was even (exp = even), use the left side to find the square/square root (and the resulting exponent of ten was one half the original exponent). For odd powers of ten, shift the decimal place of the number one place to the right and decreased the exponent of ten by one. Then use the right side (and again used one half the exponent of ten for the resulting exponent).
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DOMINANT MATHEMATICS:
In 1614, John Napier discovered the logarithm (reference: HP Computer Museum webpage)
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Reference: The System Source Computer Museum: Mechanical Calculators (http://www.syssrc.com/museum/mechcalc/javaslide/srinst.html)
Notice that on this scale the distance between the divisions is decreasing. This is a characteristic of a log scale. A logarithm relates one number to another number much like a mathematical function. The log of a number, to the base 10, is defined by:
The "magic" of the slide rule is actually based on a mathematical logarithmic relation:
These relations made it possible to perform multiplication and division using addition and subtraction. Before the slide rule, the product of two numbers were found by looking up their respective logs and adding them together, then finding the number whose log is the sum, also called the inverse log.
Equation (4) can be found by manipulating equation (2). It demonstrates that a square of a number can be found by doubling its log and getting the inverse log of the answer. Therefore, scales A and B were developed to perform the square and square root functions on the slide rule. The A scale is just twice the D scale on the same printed on the same length of the slide rule as the D scale.
The slide rule made its first appearance in the late 17 th century. The slide rule made it easier to utilize the log relations by developing a number line on which the displacement of the numbers were proportional to their logs. The slide rule eased the addition of the two logarithmic displacements of the numbers, thus assisting with multiplication and division in calculations. More functionality was later added such as the ability to compute exponential and trigonometric functions. Slide rules come in many different styles, including sliding bars and rotating cylinders and circles.
LIMITING PHYSICS:
The accuracy of the calculations made with a slide rule depends on the accuracy with which the user can read the numbers off the scale. More divisions allow for more decimal places which means increased accuracy.
PLOTS/GRAPHS/TABLES:
WHERE TO FIND SLIDE RULES:
Slide rules are rarely used because of the advent of electronic calculators and computers. However, they are a valuable educational tool because of the mathematics behind its design. Also, unlike electronic calculators, the slide rule helps the user develop a "feel" for numbers.
REFERENCES/MORE INFORMATION:
Another important attribute of moonstone is its association with femininity and fertility. It is regarded as a stone of protection for women, especially during pregnancy and childbirth. It is believed to promote hormonal balance, regulate menstrual cycles, and alleviate symptoms of PMS. In addition to its spiritual and emotional benefits, moonstone is also said to possess physical healing properties. It is believed to aid in digestion and help with issues related to the stomach, liver, and pancreas. Furthermore, it is thought to strengthen the immune system and improve overall vitality and well-being. Overall, moonstone is regarded as a powerful gemstone that can enhance one's spirituality, emotional well-being, and physical health. Its association with the divine powers of the moon makes it a highly sought-after stone for those seeking a deeper connection with themselves and the universe..
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