In ideal machine input is equal to output . The efficiency of ideal machine is 100% .
In real machine input is not equal to output .The efficiency of ideal machine in not 100% .
In ideal machine there is no lose of energy .
In real machine there is lose of energy .
In real machine there is no friction .
While in real machine there is friction .
An ideal machine is one that is 100% efficient whereas a real machine is one that is not 100% efficient.
Basically, by the term ideal machine we want to say that
the input given to the machine = the output obtained from the machine.
But in practice,Such machine can't be made due to various types of losses in the machine. In fact, Output of machine < input of the machine...
Ideal would be 100 percent. But you'll never get it.
Due to the principle of conservation of energy, energy efficiency within a closed system can never exceed 100%.
At a loudspeaker you have electrical Voltage as input and sound pressure as output.
The efficiency of the loudspeaker is really only 1 percent.
Machine closest to an ideal machine should consume with nearly 100% efficiency and deliver maximum to output...
In reality there is no such machine exists...
But we can say a machine is close to an ideal by checking its efficiency.
Ideally, friction and fatigue would not affect machinery. In reality, though, parts wear over time and energy is lost through friction and heat loss, insulation is imperfect, etc.
There is no 100% efficiency in reality.
An ideal machine is a machine where the output of work is equal to the input of work. An example is any machine that is not subject to the forces of friction, which reduces the output.
An ideal machine is one in which no part of the input energy to the machine gets wasted and the whole input energy is converted into the useful work. The efficiency of such a machine is 100%.
The difference between T.V Forensic science and real life is: T.V Real Life They where there own clothes no they fiddle with the evidence no don't where safety things no
The difference between genuine and original is very simple. Genuine is something that is real while original is the first of something.
There are two ways to work out the real difference mean in science. Firstly, the real difference means when the ranges for two different values do not overlap. If they do overlap, then there may not be a difference in the true value. Secondly, if there is a real difference, the range of one value should not overlap the mean of another value.
Wood flooring is real wood, and laminate isn't. Real wood flooring is more expensive and is the real deal. You can buy laminate cheap and it will only last so long.
Ideal gases are assuming that gas particles are discrete point particles, thus bouncing off each other with no attraction with one another, and each molecule taking up no space. This assumption allows for the Ideal gas law, which states exact proportions between measurable quantities in gases: pressure, volume, temperature, number of particles.The ideal gas law is: PV = nRTwhere:P is pressureV is volumen is number of moles of gasR is ideal gas constantT is temperature (K)Real gases particles, as common sense suggest, dohave volume and are minutely attracted to each other. Thus, gases do deviate from ideal behavior especially as they get more massive and voluminous. Thus, the attractions between the particles and the volume taken up by the particles must be taken into account. The equation derived by Van der Waals is the Van der Waals equation which simulates real gas behavior.The Van der Waals equation is:(p + ((n2a)/V2)(V - nb) = nRTwhere:p is measured pressure of the gasn is number of moles of gasa is attraction constant of the gas, varies from gas to gasV is measured volume of the gasb is volume constant of the gas, also varies from gas to gasR is ideal gas constantT is temperature (K)Basically the Van der Waals equation is compensating for the non ideal attraction and volume of the gas. It is similar to PV = nRT, identical on the right side. To compensate for the massless volume that is found in ideal equation, the volume of the molecules are subtracted from the observed. Since, the equation of gas behavior concentrates on the space between the gas particles, and the volume of gas adds to the measured amount that should be used in the equation, thus it is subtracted from the equation. Another compensation is the fact that attraction between particles reduces the force on the walls of the container thus the pressure, thus it must be added back into the equation, thus the addition of the a term.
In ideal machine input is equal to output . The efficiency of ideal machine is 100% . In real machine input is not equal to output .The efficiency of ideal machine in not 100% . In ideal machine there is no lose of energy . In real machine there is lose of energy . In real machine there is no friction . While in real machine there is friction .
A real machine is like an ideal machine in that there are no massless chains or frictionless bearings. The parts of an ideal machine are rigid and weightless.
An ideal machine can reach 100% efficiency as there is no friction or other restraints involved, whereas a real machine can never reach 100% efficiency.
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
In an ideal frictionless system, the work input equals the output and force. Your Welcome!!!
KMT talks about the properties of real gases while ideal gas laws discuss only the ideal gases..
There is no difference in the OSI model between a real physical machine and a virtualized one.
low temperature, Strong intermolecular forces
Ideal culture will always differ from real culture; values and norms do not describe actual behavior, as much as, they describe how much we are supposed to behave. Real culture: what actually happens in everyday life; Ideal culture: how we are supposed to behave based on cultural norms and values.