![According to Bernoulli's equation,frac {p}{rho g}+h+frac {1}{2}frac {v^{2}}{g}=constan tThe terms A(=frac {p}{rho g}) B(=h) and c(=frac {v^{2}}{ 2g}) are generallycalled respectively [AFMC](a) gravitational head, pressure head and velocity head(b ... According to Bernoulli's equation,frac {p}{rho g}+h+frac {1}{2}frac {v^{2}}{g}=constan tThe terms A(=frac {p}{rho g}) B(=h) and c(=frac {v^{2}}{ 2g}) are generallycalled respectively [AFMC](a) gravitational head, pressure head and velocity head(b ...](https://wb-qb-sg-oss.bytededu.com/edit/F50B8A28A50A9E257AB56613B503D33A.jpg)
According to Bernoulli's equation,frac {p}{rho g}+h+frac {1}{2}frac {v^{2}}{g}=constan tThe terms A(=frac {p}{rho g}) B(=h) and c(=frac {v^{2}}{ 2g}) are generallycalled respectively [AFMC](a) gravitational head, pressure head and velocity head(b ...
![How to Solve Projectile Motion Problems: Applying Newton's Equations of Motion to Ballistics - Owlcation How to Solve Projectile Motion Problems: Applying Newton's Equations of Motion to Ballistics - Owlcation](https://images.saymedia-content.com/.image/t_share/MTg2ODMyMzczOTE5MzI3NzI3/solving-projectile-motion-problems-applying-newtons-equations-of-motion-to-ballistics.jpg)
How to Solve Projectile Motion Problems: Applying Newton's Equations of Motion to Ballistics - Owlcation
![A ball is dropped from a height h above ground. Neglect the air resistance, its velocity (V) varies with its height y above the ground as (1) V2g(h-y) (2) 2gh (3) V2gy ( A ball is dropped from a height h above ground. Neglect the air resistance, its velocity (V) varies with its height y above the ground as (1) V2g(h-y) (2) 2gh (3) V2gy (](https://instasolv1.s3.ap-south-1.amazonaws.com/QuestionBank/5d8b53a7d8359d12bc90282e/solution_5d8b5447d8359d12bc902913.png)
A ball is dropped from a height h above ground. Neglect the air resistance, its velocity (V) varies with its height y above the ground as (1) V2g(h-y) (2) 2gh (3) V2gy (
![In the figure below, the losses up to section ''A'' is 5V_{2}^{1}/2g and the nozzle losses are 0.05V_{2}^{2}/2g Determine the ischarge and pressure at ''A'' .H= 8 ''m''. | Study.com In the figure below, the losses up to section ''A'' is 5V_{2}^{1}/2g and the nozzle losses are 0.05V_{2}^{2}/2g Determine the ischarge and pressure at ''A'' .H= 8 ''m''. | Study.com](https://study.com/cimages/multimages/16/capture1197099533438237487180.png)