Bernoulli's Equation

Statement-1 : Bernoullis equation is based on energy conservation. Statement-2 : Bernoullis equation can only be applied if the flow is streamlined. Statement-3 : Bernoullies equation can be applied evern if the flow is not streamlined as total energy is always conserved.

Form of Bernoulli equation and their solution

using the illustration when both surfaces 1 and 2 are exposed to the atmoshere, P_1 and P_2 are gauge pressure , and h_1 and h_2 are heights . The Bernoulli equation for this situation is h_1+P_1 /W+V_1^2/"2a"=h_2+P_2/W+V_2^2/"2a" The value of P_1 and P_2 are such that

using the illustration when both surfaces 1 and 2 are exposed to the atmoshere, P_1 and P_2 are gauge pressure , and h_1 and h_2 are heights . The Bernoulli equation for this situation is h_1+P_1 /W+V_1^2/"2a"=h_2+P_2/W+V_2^2/"2a" If an Identical outlet were placed at exactly the same point on the left side of the container, the velocity would be

using the illustration when both surfaces 1 and 2 are exposed to the atmoshere, P_1 and P_2 are gauge pressure , and h_1 and h_2 are heights . The Bernoulli equation for this situation is h_1+P_1 /W+V_1^2/"2a"=h_2+P_2/W+V_2^2/"2a" The velocity of the fluid leavening point (2) is constant and can be expressed as

Bernoulli's theorem