The Amulet book series, written and illustrated by Kazu Kibuishi, is a captivating fantasy adventure that takes readers on a thrilling journey. The series follows the story of two siblings, Emily and Navin, as they navigate the mystical world of Alledia. In the first book, "The Stonekeeper," Emily and Navin's world is turned upside down when their mother is kidnapped by a tentacled creature. They soon discover a magical amulet that holds tremendous power and embark on a quest to rescue their mother. Along the way, they encounter various creatures and allies, some of whom become vital to their mission. As the series progresses, the siblings face more challenges and dangers.

hydraulic

From French hydraulique, from Latin hydraulicus, from Ancient Greek ὑδραυλικός ( hudraulikós , “ of a water organ ” ) , from ὕδραυλις ( húdraulis , “ water organ ” ) , from ὕδωρ ( húdōr , “ water ” ) +‎ αὐλός ( aulós , “ pipe ” ) [1] .

Pronunciation [ edit ]

• ( UK ) IPA (key) : /haɪˈdɹɒlɪk/
• ( US ) IPA (key) : /haɪˈdɹɔːlɪk/

Adjective [ edit ]

hydraulic (not comparable)

Pertaining to water. [from early 17th c.]

Tho' there are but seventeen feet water [sic] in the channel, I have seen vessels of five hundred ton enter into it. I know not why this entrance is left so neglected, as we are not in want of able engineers in France, in the hydraulic branch, a part of the mathematics to which I have most applyed [sic] myself.

A hydraulic press is operated by the differential pressure of water on pistons of different dimensions.

Derived terms [ edit ]

• diesel-hydraulic
• hydraulic belt
• hydraulic cement
• hydraulic conductivity
• hydraulic engineering
• hydraulic fracturing
• hydraulic horsepower
• hydraulic Keynesianism
• hydraulic lime
• hydraulic limestone
• hydraulic organ
• hydraulic radius
• hydraulic ram
• hydraulic retention time
• hygraulic
• nonhydraulic

hydraulics

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• National Fluid Power Association - What is Hydraulics?
• University of Central Florida Pressbooks - Pascal’s Principle and Hydraulics
• Physics LibreTexts - Pascal's Principle and Hydraulics

• hydraulics - Children's Encyclopedia (Ages 8-11)
• hydraulics - Student Encyclopedia (Ages 11 and up)

While every effort has been made to follow citation style rules, there may be some discrepancies. Please refer to the appropriate style manual or other sources if you have any questions.

Our editors will review what you’ve submitted and determine whether to revise the article.

• National Fluid Power Association - What is Hydraulics?
• University of Central Florida Pressbooks - Pascal’s Principle and Hydraulics
• Physics LibreTexts - Pascal's Principle and Hydraulics

• hydraulics - Children's Encyclopedia (Ages 8-11)
• hydraulics - Student Encyclopedia (Ages 11 and up)

Encyclopaedia Britannica's editors oversee subject areas in which they have extensive knowledge, whether from years of experience gained by working on that content or via study for an advanced degree. They write new content and verify and edit content received from contributors.

hydraulics, branch of science concerned with the practical applications of fluids, primarily liquids, in motion. It is related to fluid mechanics, which in large part provides its theoretical foundation. Hydraulics deals with such matters as the flow of liquids in pipes, rivers, and channels and their confinement by dams and tanks. Some of its principles apply also to gases, usually in cases in which variations in density are relatively small. Consequently, the scope of hydraulics extends to such mechanical devices as fans and gas turbines and to pneumatic control systems.

Illustration of Pascal's principle at work in a hydraulic press. According to Pascal's principle, the original pressure (P₁) exerted on the small piston (A₁) will produce an equal pressure (P₂) on the large piston (A₂). However, because A₂ has 10 times the area of A₁, it will produce a force (F₂) that is 10 times greater than the original force (F₁). Through Pascal's principle, a relatively small force exerted on a hydraulic press can be magnified to the point where it will lift a car. (more)

Liquids in motion or under pressure did useful work for humanity for many centuries before French scientist-philosopher Blaise Pascal and Swiss physicist Daniel Bernoulli formulated the laws on which modern hydraulic power technology is based. Pascal’s principle, formulated about 1650, states that pressure in a liquid is transmitted equally in all directions; i.e, when water is made to fill a closed container, the application of pressure at any point will be transmitted to all sides of the container. In the hydraulic press, Pascal’s principle is used to gain an increase in force; a small force applied to a small piston in a small cylinder is transmitted through a tube to a large cylinder, where it presses equally against all sides of the cylinder, including the large piston.

Bernoulli’s theorem, formulated about a century later, states that energy in a fluid is due to elevation, motion, and pressure, and if there are no losses due to friction and no work done, the sum of the energies remains constant. Thus, kinetic energy, deriving from motion, can be partly converted to pressure energy by enlarging the cross section of a pipe, which slows down the flow but increases the area against which the fluid is pressing.

Gold miners used the hydraulic mining method in California during the 1860s. In hydraulic mining, high-pressure jets of water are used to break up rock and reach the gold behind it. (more)

Until the 19th century it was not possible to develop velocities and pressures much greater than those provided by nature, but the invention of pumps brought a vast potential for application of the discoveries of Pascal and Bernoulli. In 1882 the city of London built a hydraulic system that delivered pressurized water through street mains to drive machinery in factories. In 1906 an important advance in hydraulic techniques was made when an oil hydraulic system was installed to raise and control the guns of the USS Virginia. In the 1920s, self-contained hydraulic units consisting of a pump, controls, and motor were developed, opening the way to applications in machine tools, automobiles, farm equipment, earth-moving machinery, locomotives, ships, airplanes, and spacecraft.

In hydraulic power systems there are five elements: the driver, the pump, the control valves, the motor, and the load. The driver may be an electric motor or an engine of any type. The pump acts mainly to increase pressure. The motor may be a counterpart of the pump, transforming hydraulic input into mechanical output. Motors may produce either rotary or reciprocating motion in the load.

In the operation and control of machine tools, farm machinery, construction machinery, and mining machinery, fluid power can compete successfully with mechanical and electrical systems (see fluidics). Its chief advantages are flexibility and the ability to multiply forces efficiently; it also provides fast and accurate response to controls.

Three steps in the extraction of shale gas: drilling a borehole into the shale formation and lining it with pipe casing; fracking, or fracturing, the shale by injecting fluid under pressure; and producing gas that flows up the borehole, frequently accompanied by liquids. (more)

Hydraulic power systems have become one of the major energy-transmission technologies used by all phases of industrial, agricultural, and defense activity. Modern aircraft, for example, use hydraulic systems to activate their controls and to operate landing gears and brakes. Virtually all missiles, as well as their ground-support equipment, use fluid power. Automobiles use hydraulic power systems in their transmissions, brakes, and steering mechanisms. Mass production and its offspring, automation, in many industries have their foundations in the use of fluid power systems. Hydraulic fracturing, better known as fracking, has allowed the extraction of natural gas and petroleum from previously inaccessible deposits.

The Editors of Encyclopaedia Britannica This article was most recently revised and updated by Erik Gregersen.

How to Pronounce hydraulic?

Correct pronunciation for the word "hydraulic" is [ha͡ɪdɹˈɔːlɪk], [ha‍ɪdɹˈɔːlɪk], [h_aɪ_d_ɹ_ˈɔː_l_ɪ_k].

As the series progresses, the siblings face more challenges and dangers. In the second book, "The Stonekeeper's Curse," Emily must learn to control the amulet's power while facing the malevolent Elf King. The third book, "The Cloud Searchers," sees Emily, Navin, and their new friend, Leon, join a crew of sky pirates in their search for the lost city of Cielis.

What are the misspellings for hydraulic?

• hidraulic,
• hyrdraulic,
• hydralick,
• hydrolic,
• hydraullic,
• hydrualic,
• hydalic,
• hydrulic,
• hydralic,
• hydralics,
• hydroulic,
• hydrallic,
• hydrollic,
• hydrauilic,
• hydaulic,
• hydrauli,
• hydrylic,
• hydraluic,
• hydrulics,
• hydraullics

In the fourth book, "The Last Council," Emily and her friends attend the Council of Kings, where they hope to find a solution to the escalating conflict in their world. Secrets are revealed, and alliances are tested as they confront the forces of evil. The fifth book, "Prince of the Elves," follows Emily's journey to the elf kingdom to enlist their aid in the battle against the malevolent Voice. The sixth book, "Escape from Lucien," delves into the heart of darkness as Emily and her companions must escape from the ancient city of Lucien while being pursued by the Elf King's forces. The seventh book, "Firelight," brings the final battle closer as Emily and her friends race against time to find the lost city of Kanalis and its powerful guardian. The penultimate book, "Supernova," sees Emily making a fateful decision that could determine the fate of Alledia. As the forces of evil close in, Emily must confront her deepest fears and find the strength to fight. Finally, in the last book, "The Eternal King," the ultimate climax unfolds as Emily faces off against the Voice and struggles to save her friends and her world. The Amulet book series is a beautifully crafted and immersive tale of bravery, friendship, and the power of family. Through stunning artwork and a gripping narrative, Kazu Kibuishi creates a world that will captivate readers of all ages. Each book builds upon the previous ones, leading to an epic and satisfying conclusion. Whether you're a fan of fantasy or graphic novels, the Amulet series is a must-read..

Reviews for "Character Growth and Development: Analyzing the Amulet Nook Series in Order"

1. Rebecca - 2 stars - I was really disappointed with the "Amulet Nook" series in order. The writing was sloppy and lacked depth, the character development was practically nonexistent, and the plot was confusing and disjointed. It felt like the author was just stringing together random events without any real purpose. I also found the dialogue to be quite forced and unnatural. Overall, I found it to be a frustrating read that didn't live up to the hype.

2. Michael - 1 star - I have to say, I was extremely let down by the "Amulet Nook" series in order. The story was incredibly predictable and formulaic, with no surprises or twists to keep me engaged. The characters were flat and uninteresting, and I had a hard time connecting with them. Additionally, the pacing was all over the place, with long stretches of nothing happening followed by rushed and unsatisfying conclusions. It just felt like a poorly constructed story that didn't deliver on its promises.

3. Laura - 2 stars - I couldn't get into the "Amulet Nook" series in order at all. The writing style didn't resonate with me, and I found it to be overly simplistic and lacking in sophistication. The world-building was minimal, leaving me with many unanswered questions about the setting and the rules of the magical elements introduced. The story also didn't flow well, with abrupt shifts in tone and inconsistent pacing. Overall, it just didn't captivate me or hold my interest.

From Stonekeeper's Curse to The Last Council: Examining the Amulet Nook Series in Order