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Gear

This article is about mechanical gears. For other uses, see Gear (disambiguation), Sprocket, and Geared (video game).

Two intermeshing spur gears rotating at different velocity due to differing gear ratio

A gear[1][2] or gearwheel[3][4][5] is a rotating machine part typically used to transmit rotational motion and/or torque by means of a series of teeth that engage with compatible teeth of another gear or other part. The teeth can be integral saliences or cavities machined on the part, or separate pegs inserted inserted into it. In the latter case, the gear is usually called a cogwheel. A cog may be one of those pegs[6][7][8] or the whole gear.[9][6][8] Two or more meshing gears are called a gear train.

The smaller member of a pair of meshing gears is often called pinion. Most commonly, gears and gear trains can be used to trade torque for rotational speed between two axles or other rotating parts and/or to change the axis of rotation and/or to invert the sense of rotation. A gear may also be used to transmit linear force and/or linear motion to a rack, a straight bar with a row of compatible teeth.

Geneva drive

Gears are among the most common mechanical parts. They come in a great variety of shapes and materials, and are used for many different functions and applications. Diameters may range from a few μm in micromachiness,[10] to a few mm in watches and toys to over 10 metres in some mining equipment.[11] Other types of parts that are somewhat similar in shape and function to gears include the sprocket, which is meant to engage with a link chain instead of another gear, and the timing pulley, meant to engage a timing belt. Most gears are round and have equal teeth, designed to operate as smoothly as possible; but there are several applications for non-circular gears, and the Geneva drive has an extremely uneven operation, by design.

Gears can be seen are instances of the basic lever "machine".[12] When a small gear drives a larger one, the mechanical advantage of this ideal lever causes the torque T to increase but the rotational speed ω to decrease. The opposite effect is obtained when a large gear drives a small one. The changes are proportional to the gear ratio r, the ratio of the tooth counts. namely, T2/T1 = r = N2/N1, and ω2/ω1 = 1/r = N1/N2. Depending on the geometry of the pair, the sense of rotation may also be inverted (from clockwise to anti-clockwise , or vice-versa).

Most vehicles have a transmission or "gearbox" containing a set of gears that can be meshed in multiple configurations. The gearbox lets the operator vary the torque that is applied to the wheels without changing the engine's speed. Gearboxes are used also in many other machines, such as lathes and conveyor belts. In all those cases, terms like "first gear", "high gear", and "reverse gear" refer to the overall torque ratios of different meshing configurations, rather than to specific physical gears. These terms may be applied even when the vehicle does not actually contain gears, as in a continuously variable transmission.[13]

  1. ^ Definition of "gear" in the Merriam-Webster Dictionary online, sense (6a). Accessed on 2018-09-20.
  2. ^ Definition of "gear" in the Oxford Learner's Dictionary online. Accessed on 2024-07-27.
  3. ^ Definition of "gearwheel" in the Collins English Dictionary online. Accessed on 2024-07-27.
  4. ^ Definition of "gearwheel" in the Merriam-Webster dictionary online. Accessed on 2018-09-20.
  5. ^ Definition of "gearwheel" in the Oxford Learner's Dictionary online. Accessed on 2024-07-27.
  6. ^ a b Definition of "cog" in the Oxford Learner's Dictionary online. Accessed on 2024-07-29.
  7. ^ Definition of "cog" in the Merriam-Webster Dictionary online. Accessed on 2024-07-29.
  8. ^ a b Definition of "cog" in the Cambridge Dictionary Plus online. Accessed on 2024-07-29.
  9. ^ Definition of "cog" in the Collins English Dictionary online. Accessed on 2024-07-29.
  10. ^ Shuailong Zhang, Mohamed Elsayed, Ran Peng, Yujie Chen (2021): "Reconfigurable multi-component micromachines driven by optoelectronic tweezers". Nature Communications, volume 12, issue 1. doi:10.1038/s41467-021-25582-8
  11. ^ Matthew Jaster (2013): [https://www.geartechnology.com/ext/resources/issues/0313x/worlds_largest_gears.pdf "MY GEAR is Bigger than YOUR GEAR: Industry Battles it Out for World’s Largest Gear Title"]. Online article from Gear Technology magazine. Archived on 2024-07-30.
  12. ^ "Levers - Moments, levers and gears - AQA - GCSE Physics (Single Science) Revision - AQA - BBC Bitesize". Bbc.co.uk. 1 January 1970. Retrieved 16 March 2022.
  13. ^ "Transmission Basics". HowStuffWorks. 27 April 2005.

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