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  • Teaching, Tutoring and Training in the Lifelong Learning Sector
    Teaching, Tutoring and Training in the Lifelong Learning Sector

    This core text provides comprehensive support for pre-service and in-service trainee teachers in the Lifelong Learning Sector covering all they need to know to achieve QTLS status. Supporting trainees through all stages of their professional development, the text takes the reader through the theoretical background underpinning teaching and learning and offers practical guidance on day-to-day challenges. This fourth edition has been fully revised and updated and includes a new chapter on teaching practice with notes on observation and lesson planning.New information on behaviour management has been added to support trainees in an aspect of teaching that many find challenging.

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  • Computer Science Education : Perspectives on Teaching and Learning in School
    Computer Science Education : Perspectives on Teaching and Learning in School

    Drawing together the most up-to-date research from experts all across the world, the second edition of Computer Science Education offers the most up-to-date coverage available on this developing subject, ideal for building confidence of new pre-service and in-service educators teaching a new discipline.It provides an international overview of key concepts, pedagogical approaches and assessment practices. Highlights of the second edition include:- New sections on machine learning and data-driven (epistemic) programming- A new focus on equity and inclusion in computer science education- Chapters updated throughout, including a revised chapter on relating ethical and societal aspects to knowledge-rich aspects of computer science education- A new set of chapters on the learning of programming, including design, pedagogy and misconceptions- A chapter on the way we use language in the computer science classroom. The book is structured to support the reader with chapter outlines, synopses and key points.Explanations of key concepts, real-life examples and reflective points keep the theory grounded in classroom practice. The book is accompanied by a companion website, including online summaries for each chapter, 3-minute video summaries by each author and an archived chapter on taxonomies and competencies from the first edition.

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  • Baltic Pet Buoyancy Aid
    Baltic Pet Buoyancy Aid

    A comfortable pet buoyancy aid that protects your pet from cold and heat. Wide webbing fixing straps with Delrin buckles for easy fit and comfort. Fitted with D- ring for the leash. Small: 3-8kg. Medium: 8-15kg. Large: 15-40kg. XL: 40kg+.

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  • Baltic Mariner Buoyancy Aid
    Baltic Mariner Buoyancy Aid

    The Mariner is based on the Genua model but with a slightly simplified design but keeps the split front panels. 50 Newtons. Split in the foam material for a better fit. Zipped outside pocket. Front zip fastening with waistband and bottom tie.

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  • What is buoyancy?

    Buoyancy is the ability of an object to float in a fluid, typically water or air. It is determined by the relationship between the object's weight and the amount of fluid it displaces. If an object is less dense than the fluid it is in, it will float, while if it is more dense, it will sink. Buoyancy is what allows boats and ships to float on water and hot air balloons to rise in the air.

  • What is buoyancy 2?

    Buoyancy 2 refers to the ability of an object to float or be supported by a fluid, typically water. It is determined by the relationship between the weight of the object and the upward force exerted by the fluid it is submerged in. If the object is less dense than the fluid, it will float; if it is more dense, it will sink. Buoyancy 2 plays a crucial role in various fields such as engineering, naval architecture, and physics.

  • What is buoyancy in physics?

    Buoyancy in physics refers to the upward force exerted by a fluid that opposes the weight of an object immersed in it. This force is a result of the pressure difference between the top and bottom of the object. Objects will float if their weight is less than the buoyant force acting on them, and sink if their weight is greater. Buoyancy plays a crucial role in determining whether objects float or sink in fluids such as water.

  • What does buoyancy depend on?

    Buoyancy depends on the density of the fluid and the volume of the object submerged in the fluid. When an object is placed in a fluid, the fluid exerts an upward force on the object, which is known as the buoyant force. This force is equal to the weight of the fluid displaced by the object. Therefore, the buoyancy of an object depends on the density of the fluid and the volume of the object, as these factors determine the amount of fluid displaced and the buoyant force exerted on the object.

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    Baltic "Canoe" Buoyancy Aid

    Classic robustly made and designed paddler buoyancy aid. Buoyancy is centred to the front and back to allow free arm movement. 50 Newtons. Net pocket on the chest. Detachable crutch strap included. Reinforcement tape over the shoulders.

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    Crewsaver Sport Buoyancy Aid

    Adjustable shoulder and dual waist straps combined with a unique arrangement of lightweight and soft foam provide a bespoke and comfortable fit. This centre zip buoyancy aid features reflective piping and an easily accessible expanding storage ....

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    Typhoon Centre Buoyancy Aid

    Designed with the watersport rental market in mind, the Centre 50N F/E Vest is engineered to meet specific needs: durability, great value and comfort. Key Features: Ergonomic non-restrictive scoop design. Fully adjustable shoulder and wai ....

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    Gill Pursuit Buoyancy Aid

    An essential for most water sports, the Pursuit Buoyancy Aid has adjustable shoulders with Neoprene padding for a secure fit. Practical, with a self-draining zippered front pocket and reflective detailing front and back for visibility - the li ....

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  • How is buoyancy calculated in physics?

    Buoyancy is calculated in physics using Archimedes' principle, which states that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. The buoyant force can be calculated by multiplying the density of the fluid, the acceleration due to gravity, and the volume of the fluid displaced by the object. By comparing the buoyant force to the weight of the object, one can determine whether the object will float, sink, or remain suspended in the fluid.

  • What is the law of buoyancy?

    The law of buoyancy, also known as Archimedes' principle, states that an object immersed in a fluid experiences an upward force equal to the weight of the fluid it displaces. This means that an object will float if it is less dense than the fluid it is immersed in, and it will sink if it is more dense. The buoyant force is what allows objects to float in water and is the reason why ships and other heavy objects can stay afloat.

  • How does buoyancy work in space?

    Buoyancy in space works differently than on Earth because there is no gravity to create the upward force. In microgravity environments, objects appear to be weightless and do not experience the same buoyant forces as they would in a fluid on Earth. However, in a spacecraft or space station, air circulation and ventilation systems can create air currents that can affect the movement of objects, creating a form of "buoyancy" in the absence of gravity. Additionally, the concept of buoyancy is still relevant in the design and operation of spacecraft and space equipment, as engineers must account for the effects of microgravity on the behavior of fluids and gases.

  • How is buoyancy created in water?

    Buoyancy in water is created by the upward force exerted by the water on an object placed in it. This force is known as the buoyant force and is a result of the pressure difference between the top and bottom of the submerged object. The pressure at the bottom of the object is higher than at the top, causing a net upward force. This buoyant force is equal to the weight of the water displaced by the object, allowing it to float or be pushed upward when submerged.

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