The interval between C and D is a major second or a "whole step".
The distance between i.e. a C and the C below that, is called an octave.. But the distance between a C and the D above is an interval.
A step is the distance between two notes. A half step is the shortest (tonal) distance between two notes (such as between B and C), and a whole step is therefore a distance of two half steps between two notes (such as between C and D, since C#/Db is between them).
The nearest distance ascending from C to D is just a single whole step, aka a major 2nd interval. The nearest distance ascending from D to C on the whole tone scale is just a whole step shy of an octave, which would be a minor 7th interval.
The note between C# and D# is D.
Notes between C and EThere are three notes between C and E: C#/Db, D, and D#/Eb. Just so you don't get so confused, the person that answered this was correct, but some people are just beginning and you really don't want to confuse them because they aren't ready.Between C and E is just D. Unless you are playing with sharps and flats then the C key would be D flat (Db) and a C# and then D which is between C and E, then D# and E flat (Eb) D# and Eb are on the same black key. Along with C# and D flat (Db)Hope this helps!!!
The distance between C and D + The distance between D and E + The distance between E and F. :o)
The distance between i.e. a C and the C below that, is called an octave.. But the distance between a C and the D above is an interval.
distance
Let the two points be (a,b) and (c,d). Then the distance between D= sqrt [ (a-c)^2 + (b-d)^2] where ^2 means squared.
void PrintDist (double d) { printf ("the distance is %g", d); }
98 miles
C(-10,2),d)-7,6)
A step is the distance between two notes. A half step is the shortest (tonal) distance between two notes (such as between B and C), and a whole step is therefore a distance of two half steps between two notes (such as between C and D, since C#/Db is between them).
No it is the opposite. The closer the plates are together the higher the capacitance. This is given by the forumua: C = [(2.2479 x 10^-13) x K x A] / d where d is the distance between the plates. Which means that C is inversely proportional to the distance between the plates.
The answer depends on the metric that is used for measuring distance. For most metrics the 3-d formula is simply the extension of the 2-d version. For example, the Pythagorean formula, for the distance between X = (a,b,c) and Y = (d,e,f) is distance = sqrt[(d-a)2 + (e-b)2 + (c-f)2]
D. Alignment of the Universe does not contribute to the changing of seasons. The changing of seasons is primarily influenced by the tilt of the Earth's axis as it orbits the Sun (B), along with the varying distance between the Earth and the Sun (C) throughout the year. The distance between the Earth and the Moon (A) mainly affects tides on Earth.
The nearest distance ascending from C to D is just a single whole step, aka a major 2nd interval. The nearest distance ascending from D to C on the whole tone scale is just a whole step shy of an octave, which would be a minor 7th interval.