"Hydrodynamica". Britannica Online Encyclopedia. 14 Mayıs 2015 tarihinde kaynağından arşivlendi. Erişim tarihi: 30 Ekim 2008.
iop.org
"If the particle is in a region of varying pressure (a non-vanishing pressure gradient in the x-direction) and if the particle has a finite size l, then the front of the particle will be ‘seeing’ a different pressure from the rear. More precisely, if the pressure drops in the x-direction (dp/dx < 0) the pressure at the rear is higher than at the front and the particle experiences a (positive) net force. According to Newton’s second law, this force causes an acceleration and the particle’s velocity increases as it moves along the streamline... Bernoulli’s equation describes this mathematically (see the complete derivation in the appendix)."Babinsky, Holger (Kasım 2003), "How do wings work?"(PDF), Physics Education
uni-frankfurt.de
user.uni-frankfurt.de
"Acceleration of air is caused by pressure gradients. Air is accelerated in direction of the velocity if the pressure goes down. Thus the decrease of pressure is the cause of a higher velocity." Weltner, Klaus; Ingelman-Sundberg, Martin, Misinterpretations of Bernoulli's Law, 29 Nisan 2009 tarihinde kaynağından arşivlendi, erişim tarihi: 26 Kasım 2011
web.archive.org
"Hydrodynamica". Britannica Online Encyclopedia. 14 Mayıs 2015 tarihinde kaynağından arşivlendi. Erişim tarihi: 30 Ekim 2008.
"Acceleration of air is caused by pressure gradients. Air is accelerated in direction of the velocity if the pressure goes down. Thus the decrease of pressure is the cause of a higher velocity." Weltner, Klaus; Ingelman-Sundberg, Martin, Misinterpretations of Bernoulli's Law, 29 Nisan 2009 tarihinde kaynağından arşivlendi, erişim tarihi: 26 Kasım 2011
