### Lexicographical Neighbors of Roulettes

### Literary usage of Roulettes

Below you will find example usage of this term as found in modern and/or classical literature:

**1.** *An Elementary Treatise on the Differential Calculus Founded on the Method of* by John Minot Rice, William Woolsey Johnson (1877)

"Curves generated in this manner are termed roulettes. ... Involutes, as defined
in Art. 30i, are roulettes in which a straight line takes the place of the ..."**2.** *An Elementary Treatise on the Integral Calculus: Containing Applications to* by Benjamin Williamson (1880)

"Areas of **Roulettes** on Rectilinear Rases. The connexion between the areas of ...
The corresponding theorem of Steiner connecting the lengths of roulettes ami ..."

**3.**

*An Elementary Treatise on the Differential Calculus: Containing the Theory*by Benjamin Williamson (1889)

"

**. 271.**

**Roulettes****.—When one curve rolls without sliding upon another, any point invariably connected with the rolling curve describes another curve, ..."**

**Roulettes****4.**

*First Course in Calculus*by Edgar Jerome Townsend, George Alfred Goodenough (1908)

"

**and involutes. Suppose a plane curve, as AR, Fig. ... 130, the roulettes are called involutes of the fixed curve; thus, curves e and / are ..."**

**Roulettes****5.**

*First Course in Calculus*by Edgar Jerome Townsend, George Alfred Goodenough (1908)

"

**and involutes. Suppose a plane curve, as AB, Fig. ... 130, the roulettes are called involutes of the fixed curve; thus, curves e and / are ..."**

**Roulettes****6.**

*An Elementary Treatise on Cubic and Quartic Curves*by Alfred Barnard Basset (1901)

"All cycloidal curves belong to the class of curves called roulettes, for the complete discussion of which we must refer to Dr Besant's Notes on

**..."**

**Roulettes****7.**

*An Elementary Treatise on Cubic and Quartic Curves*by Alfred Barnard Basset (1901)

"All cycloidal curves belong to the class of curves called roulettes, for the complete discussion of which we must refer to Dr Besant's Notes on

**..."**

**Roulettes**