Airplane,ventrimeter,andpump
One disadvantage of Archimedes' principle is that it assumes the fluid in question is incompressible, which may not always be the case in real-world scenarios. Additionally, the principle does not account for surface tension effects that can impact the accuracy of buoyant force calculations. Lastly, Archimedes' principle is limited to fluids and does not directly apply to objects submerged in other mediums such as gases.
Interest=Principle times rate times time
Real life examples:-a) People standing in a line to board a bus:- The person who stand first in the line get into the bus first and the person who stand last in the line board the bus last. This follows the First-in-first-out (FIFO) principle of queue.b) Phone answering system :- Person who would call first gets a response first and the person who would call last gets the response last. This follows the FIFO principle of queue.c) Person waiting outside cinema hall:- Person who would be checked first will get into the cinema hall first and the person who would be checked last would get into the cinema hall last. This follows the FIFO principle of queue.d) Luggage checking machine:- Luggage that would be put first in the machine would be checked first and the luggage that will be put at the last would be checked last. This follows the FIFO principle of queue.e) Patient wait outside the clinic :- Patient who come first visit the doctor first and the patient who comes last visit the doctor last. This follows the FIFO principle of queue.f) Vehicles on toll-tax bridge :- The vehicles that comes first to the toll tax booth will leave the booth first and the vehicle that comes last would leave the booth last. This follows the FIFO principle of queue.AKANKSHA
The formula used to calculate your interest is the principle balance, multiplied by the monthly interest rate. Then you mulitply that by the number of months in which you last paid interest.
Bernoullis principle
The speed of the fluid is what determines its pressure in relation to Bernoulli's principle. As the speed of the fluid increases, the pressure decreases according to the principle.
It's expensive.
They spoil quicker than dried ones.
Bernoulli's principle states that as the speed of a fluid increases, its pressure decreases, and vice versa. This means that in a moving fluid, areas with higher speed will experience lower pressure compared to areas with lower speed.
Bernoulli's principle helps to explain how the speed of a fluid (such as air or water) is related to its pressure. It is commonly used to understand phenomena like lift in aircraft wings, the flow of fluids through pipes, and the operation of carburetors and atomizers.
Bernoulli's principle is commonly used in aviation to explain lift generation, in weather forecasting to analyze air pressure differences, and in fluid dynamics to understand the flow characteristics in pipelines and pumps.
This rule is known as Bernoulli's principle. It states that as the speed of a fluid increases, the pressure within the fluid decreases, and vice versa. This principle is commonly used in fluid dynamics to explain phenomena such as lift on an airplane wing or the flow of water through a pipe.
The Bernoulli's principle states that as the speed of a fluid (such as air) increases, its pressure decreases. In flying, this principle is applied to the wings of an aircraft, where the shape and angle of the wing cause air to move faster over the top surface than the bottom surface. This speed difference creates lower pressure above the wing, resulting in lift.
Yes, Bernoulli's principle states that as the speed of a fluid increases, the pressure exerted by the fluid decreases. This principle is based on the conservation of energy in a flowing fluid. It is commonly observed in applications such as airplane wings, where faster-moving air creates lower pressure and generates lift.
Bernoulli's principle states that as the speed of a fluid (such as air or water) increases, its pressure decreases. This principle is based on the conservation of energy in a fluid flow system, where the total energy remains constant between pressure energy, kinetic energy, and potential energy. It is commonly used to explain phenomena such as lift in aircraft wings and the flow of fluids through pipes.
Airplane,ventrimeter,andpump