Good moning we are from NSFYC.year 5.hydrodynamic is something sharp in the front part
hydrodynamic s is how quilkiy a object can travel in a fluid. example: a person swimming in water
a shape is called a shape in mathematics
That shape is called a cylinder.That shape is called a cylinder.That shape is called a cylinder.That shape is called a cylinder.
An inscribed shape is inside a circumscribing shape.
A 2 dimensional shape such as a circle is NOT a solid shape, while a sphere is.
the body motion in fluid is called hydrodynamic drive.
hydrodynamic s is how quilkiy a object can travel in a fluid. example: a person swimming in water
How does hull shape affect the speed of a boat? When trying to get the most speed out of your boat, you may want to consider how the hull shape affects the speed of the boat. "Hydrodynamic" is a term that is used when determining the motion or flow of water. It is similar to the more familiar term "aerodynamic," which relates to the flow of air. The speed of a boat is correlated to its hydrodynamic efficiency, and the hydrodynamic efficiency is determined by the shape of the hull of the boat. The hull of the boat is the first area to be hit by water as you speed forward. A round or square hull will connect with the water like a force that is pushing against it. As the force of the water hits the boat hull straight on, the boat must push the water out of the way before it can attain optimal speed. This limitation of the boat's ability to get to a higher speed quickly is known as drag, and is affected by the hull shape. A boat hull shape that is pointed allows the water to flow around the boat quickly. The less water that the hull needs to move out of the way, the faster the boat will go. How hull shape affects the speed of a boat is one factor that the military had taken into consideration when they started to build the V-shape hull design. This shape offers the most hydrodynamic efficiency, which gives the military a boat that can cut across water with little drag and perform well at high speeds.
Hydrodynamic
The LZR Razor is not made out of sharkskin; however, it is designed to simulate the hydrodynamic properties of sharkskin. Sharks are able to achieve great swimming speeds in part due to their rough skin, which helps them glide through the water. The LZR swimsuits are similar in design. They also squeeze the body into a more hydrodynamic shape.
The shape a polymer molecule assumes in solution depends on the polymer-solvent combination, the polymer architecture, chemical groups along the backbone of the polymer chain, the polymer molecular weight, the temperature of the solution, the concentration/viscosity of the solution, the prescence of ions and if the solution is in a static or dynamic state e.g. under shear or in an electric field. This shape could be straight or random coil. The volume the shape assumes may be big or small (depending on the above mentioned parameters) and is more commonly referred to as the hydrodynamic volume. The hydrodynamic volume is used to study the molecular weight of polymers using a technique called size exclusion chromatography.
A turtle has a flat head so they can be hydrodynamic.
mainly ship is made of mild steel... It is given hydrodynamic shape... By Archimedes principle it floats.. sacrificial anode is provided at the aft so that it gets consumed rather than the hull of the ship and then only it is replaced
A hydrodynamic coupling is used on a tractor to convert the power of the engine for other purposes. It allows you to operate equipment such as a post hole digger, hay baler, or log splitter from a connection on the tractor.
The difference is that hydrodynamic lubrication requires the motion of the moving parts that are to be lubricated to pump the actual lubricant. Electrohydrodynamic lubrication involves electrically charged lubricants.
aerodynamic, or hydrodynamic.
J. A. Sparenberg has written: 'Elements of hydrodynamic propulsion' -- subject(s): Ship propulsion 'Hydrodynamic propulsion and its optimization' -- subject(s): Mathematical models, Mathematical optimization, Hydrodynamics, Ship propulsion