how to do find the scale factor of a cylinder

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Minor scale

A minor scale in music theory is generally any scale that includes at least three essential scale degrees: one being the tonic, another at an interval of a minor third above the tonic, and another at an interval of a perfect fifth above the tonic, together composing the tonic minor triad. While this definition encompasses many scales and modes such as Dorian mode and the Phrygian mode, the term in its stricter sense is usually limited to the natural minor, harmonic minor, and melodic minor scales, described below, which are in most common use in Western classical music (seemajor and minor).

Natural minor

The natural minor scale is the sixth mode (or Aeolian mode) of the major scale. For example, the white notes of a keyboard if played from any C continuing up an octave to the next C produce a C major scale. If the white notes are played beginning from the sixth step of that C scale, from any A to an A an octave above, then an A natural minor scale (the "relative minor" of C) is produced.

Natural Minor Scale: 1 2 3 4 5 6 7 8

Harmonic and melodic minor

The above considerations of chordal harmony led to the harmonic minor scale, the same as the natural minor but with a chromatically raised seventh degree.

Harmonic Minor Scale: 1 2 3 4 5 6 7 8

For example, in the key of A minor, the harmonic minor scale is:

A B C D E F G A'

An important characteristic of the harmonic minor scale—in contrast to the natural minor—is its inclusion of two sets of chords whose inversions are structurally identical, and hence have ambiguous tonality. These are the Diminished seventh chord (found on the 2nd, 4th, 6th and 7th degrees) and the Augmented chord (found on the 3rd, 5th and 7th degrees).

The harmonic minor is also occasionally referred to as the Mohammedan scale as its uppertetrachord corresponds to the Hijaz jins, commonly found in Middle Eastern music. The harmonic minor scale as a whole is described as Nahawand-Hijaz in Arabic nomenclature, or as Bûselik Hicaz in Turkish nomenclature.

The interval between the sixth and seventh degrees of this scale (in this case F and G) is an augmented second. While some composers, notably Mozart, have used this interval to advantage in melodic composition, other composers, having felt it to be an awkward leap, particularly in vocal music, considered a whole step between these two scale degrees more conducive to smooth melody writing, so either the sixth scale degree was raised or the seventh flattened. Traditionally, music theorists have called these two options the ascending melodic minor scale (also known as heptatonia seconda) and descending melodic minor scale, the ascending being identical in its upper tetrachord to the major scale, and the descending being simply the natural minor:

Ascending Melodic Minor Scale: 1 2 3 4 5 6 7 8

A B C D E F G A'

and then the Descending Melodic Minor Scale (the Natural Minor: see above):

A' G F E D C B A

Composers have not been consistent in using these in ascending and descending melodies. Just as often, composers choose one form or the other based on whether one of the two notes is part of the most recent chord (the prevailing harmony). Particularly, to use the triad of the relative major—which is very common—since this is based on the third degree of the minor scale, the raised seventh degree would cause an augmented triad. Composers thus frequently require the lowered seventh degree found in the natural minor. In jazz, the descending aeolian is usually disregarded altogether.

Finding key signatures

Major and minor keys that share the same signature are called relative; so C major is the relative major of A minor, and C minor is the relative minor of E major. The relative major is a minor third above the tonic of the minor. For example, since the key signature of G major has one sharp (see major scales for how to find this), its relative minor, E minor, also has one sharp in its key signature.

Music may be written in an enharmonic scale (e.g. C minor, which only has four sharps in its key signature, compared to the theoretical eight flats required for D minor). The following are enharmonic equivalents:

Double sharps/double flats can be written as accidentals, but not as part of a key signature. For example:

D Minor Key Signature: E + A + D + G + C + F + B (the B is now double flatted and therefore, notated after the single accidentals, which obviously do not include the B)

D Natural Minor = D E F G A B C D

D Melodic Minor (Ascending + Descending) = D E F G A B C D C B A G F E D

D Harmonic Minor = D E F G A B C D



From Yahoo Answers

Question:There are two triangles, and triangle ABE, AB=15, BE=8, AE=12. In triangle FDC, FD=x-15, FC=6, and DC is unknown. How do I find the scale factor? But then what would the scale factor (in ration form) be? Ahh! Thanks so much guys... have a great night!

Answers:If the triange are similar, then corresponding sides are in proportion. so first set up the proportion. __AB__ = __BE__=__AE___ .....FD............DC.........FC now plug in what you know ___15___= ____8___ = ____12____ ....x -15..............?.................6..... If you notice the last term the ratio is 2:1 You can easily solve for the other missing sides.

Question:I have a smaller one with base length 8 cm, height 7 cm, and slant height 9 cm. And I have to make a scale factor to the Cheops pyramid. Which has dimensions in feet. I know I have to convert the feet into inches, then centimeters, but how do I find the scale factor? PLEASE HELP ME!

Answers:Cheops Pyramid dimensions in metric. http://www.dartmouth.edu/~matc/math5.geometry/unit2/unit2.html B = 230.363 m; H = 146.515m S = 18.637 m There are 100 cm to one meter.

Question:The object floats in the water filled graduated cylinder and sinks in the alcohol filled graduated cylinder.

Answers:He's not allowed to use the scale. Thus if it floats in water and sinks in alcohol its density is somewhere between 1g/mL and 0.789g/mL. You would have to mix alcohol and water to the point where the object is JUST sitting below the surface of the mixture. Then take the object out and insert a hydrometer to get the density of the water/alcohol mixture and that will be the density of the object.

Question:

Answers:3 meters = 300 cm, so each 2 cm represents 300 cm, i.e. the scale factor is: 2:300 which is the same as 1:150 by dividing both parts by 2.