They are both Diaphragms. thats what they have in common;P
DELTA AND TOMBOLO :p
delta x times delta p is equal to or greater than the Planck Constant(h-bar) over 2.
Impulse is a change of momentum (delta p).
your diaphragm is a reddish color
They are both Diaphragms. thats what they have in common;P
P. S. Delta has written: 'Paramythi cho ris onoma'
DELTA AND TOMBOLO :p
Delta P will decrease with distance.
Two types of stream valleys are V-shaped valleys, which are narrow and steep-sided, typically found in the upper courses of rivers, and U-shaped valleys, which are wider with a flat bottom and steep sides, usually formed by glacial erosion.
impulse=f*delta T here f= delta P(momentum)\delta T * delta T delta T cancel with delta T so, impulse will have same dimension as momentum i.e. ML/t
I'm pretty sure its when the pressure remains constant. When the pressure is constant: q=delta U + P delta V The equation for delta H is: delta H = delta U +P delta V Therefore, when pressure is constant: delta H = q I think...
Impulse = I momentum = P Force = F Mass = m Time= t Velocity = v Delta = the change of I=F(DELTA)t P=mv
P=P(atm)+Sq delta h= Kg/m
Unit is P=Delta D over V
P-delta analysis is a structural analysis method that accounts for the effect of second-order displacements on the structure's overall behavior. It is used to capture the impact of large deformations that can significantly influence the response of tall or flexible structures, particularly in situations where the structure's stability or performance might be compromised if these effects are neglected.
delta x times delta p is equal to or greater than the Planck Constant(h-bar) over 2.