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It is the force that you carry in your hart. T belongs in side of your hart and impossible to see for the human eye. Or its just a force that is created when a big explosion occures. You cant really see it but it is very strong.
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∙ 12y ago
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What is a Bernoulli effect?
A Bernoulli effect is an occurrence of Bernoulli's principle in a flowing fluid.
How bernoulli's equation is applied in hydroelectric generating stations?
It is used to determine the force on the turbine blades as water passes over them.
What country is bernoulli from?
Bernoulli is a family of Swiss mathematicians.
How the Bernoulli Effect is applied in sailing?
Mostly when you're tacking up-wind, its the force that call bellow the sail in the direction traveled.
Which explains the downward force produced when air flows over the winglike spoiler on a car race?
Bernoulli's principal; it's an inverted airfoil.
Buoyant force depends on the weight of the displaced fluid according to what principle?
Bernoulli's principle
Which explains the downward force when air flows over the winglike spoiler on a race car?
Bernoulli's principal
What is a Bernoulli variable?
A Bernoulli variable is a variable which is part of a Bernoulli process.
Who discovred the Bernoulli effect?
Swiss mathematician and physicist Daniel Bernoulli discovered what is known as the Bernoulli effect, or the Bernoulli Principle.
What is a Bernoulli effect?
A Bernoulli effect is an occurrence of Bernoulli's principle in a flowing fluid.
Who give Bernoulli equation?
It was Bernoulli.
Which explains the downward force produced when air flows over the winglike spoiler on a race car?
Bernoulli's principal
Where did Bernoulli work?
bernoulli was an amazing helper
Which country is Bernoulli from?
The country Bernoulli from is Switzerland
How bernoulli's equation is applied in hydroelectric generating stations?
It is used to determine the force on the turbine blades as water passes over them.
What has the author Daniel Bernoulli written?
Daniel Bernoulli has written: 'Principes hydrostatiques et me caniques, ou, Me moire sur la manie re de diminuer le roulis et le tangage d'un naivre' -- subject(s): Stability of ships 'Danielis Bernoulli ... Hydrodynamica' 'Danielis Bernoulli ... Hydrodynamica' 'Danielis Bernoulli ... Hydrodynamica' 'Die Werke von Daniel Bernoulli: Band 3' 'Danielis Bernoulli ... Hydrodynamica' 'Hydrodynamica, sive de viribus et motibus fluidorum commentarii' 'Hydrodynamics, by Daniel Bernoulli, (and) Hydraulics, by Johann Bernoulli' 'Lettres de Jean Bernoulli, le pere, a Euler' 'Die Werke von Daniel Bernoulli ; Band 1 (Die Werke von Daniel Bernoulli)' 'Danielis Bernoulli ... Hydrodynamica' 'Danielis Bernoulli ... Hydrodynamica' 'Danielis Bernoulli ... Hydrodynamica' 'Danielis Bernoulli ... Hydrodynamica' 'Hydrodynamica' -- subject(s): Fluid mechanics, Early works to 1800, Hydromechanics, Hydraulics, Hydrodynamics 'Danielis Bernoulli ... Hydrodynamica' 'Danielis Bernoulli ... Hydrodynamica'
Bernoulli's equation and an airplane's wing?
Bernoulli's equations explain 100% of the lifting force created by wings. But Newton's third law also explains 100% of the lifting force. This should not be suprising, since Bernoulli's equations are based on Newton's laws. Bernoulli and Newton are two different ways of explaining a complicated situation. Neither is more "right" than the other. If we choose one explanation while ignoring the other, then our understanding of flight will be incomplete. To be clearer... Bernoulli's equation describes the lifting force in terms of pressures applied to the wing surface. There are no other forces involved. If we know the pattern of pressures, then we know the lifting force. Yet the explanation of flight remains incomplete. Wings feel pressure because they change the motion of the surrounding "parcels" of air, and air has mass. If a wing applies a force which causes air to accelerate downwards, then by Newton's 2nd and 3rd laws, the wing must experience an equal upwards lifting force. If we know the acceleration of the air surrounding the wing, then we know the lifting force.
