Bernoulli's theorem implies, therefore, that if the fluid flows horizontally so that no change in gravitational potential energy occurs, then a decrease in fluid pressure is associated with an increase in fluid velocity.
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Bernoulli’s theorem states that the whole mechanical energy of the flowing liquid includes the gravitational potential energy of altitude, then the energy-related with the liquid force & the kinetic energy of the liquid movement, remains stable. From the energy conservation principle, this theorem can be derived.
Bernoulli’s equation is also known as Bernoulli’s principle. When we apply this principle to fluids in a perfect state, then both the density & pressure are inversely proportional. So the fluid with less speed will use more force compare with a fluid that is flowing very fast.
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Bernoulli's theorem implies, therefore, that if the fluid flows horizontally so that no change in gravitational potential energy occurs, then a decrease in fluid pressure is associated with an increase in fluid velocity.
━━━━━━━━━━━━━━━━━━━━━
Abeyy oo kutte Kamine bhavu di aur mei we r missing uhh aaja yrr pin pr pweachhhhh haath joding __/!\__
T_T roo b li xD
Bernoulli’s theorem states that the whole mechanical energy of the flowing liquid includes the gravitational potential energy of altitude, then the energy-related with the liquid force & the kinetic energy of the liquid movement, remains stable. From the energy conservation principle, this theorem can be derived.
Bernoulli’s equation is also known as Bernoulli’s principle. When we apply this principle to fluids in a perfect state, then both the density & pressure are inversely proportional. So the fluid with less speed will use more force compare with a fluid that is flowing very fast.
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