It's the same thing. If you have a degree in Mechanical Engineering, you have a Bachelor of Science in Mechanical Engineering.
the signal can be converted into digital form and can be stored for further reference.display of the data is possible on a CRO.reading of analog data with the help of electrical transducers has less losses involved as compared to mechanical transducers.
digital systems are nothing but may be based on microcontroller, or an electronics parts which are highly sensitive, fast response and light in weight. Where as analog instruments mainly consists of mechanical parts which indicates lower accuracy compared to digital. - By. Sainath Roham
Underground cables are 'armoured' in order to protect them against mechanical damage. This armour takes either of two forms: (1) steel tape, or (2) wire. Wire armour tends to be used on cables with a larger diameter, as it makes them more flexible compared to cables with tape armour. In both cases, the armour is spiral-wound towards the outer part of the cable along its length and is, itself, protected with a hessian or plastic outer layer.
B. E civil engineering means bachelor of Engineering in civil engineering discipline and Diploma is 3 yr course in civil engineering discipline. Diploma Engineering course equivalent to 12th class in indian and B. E is equivalent to Graduate course. Diploma Engineering course equivalent to 12th class in indian and B. E is equivalent to Graduate course.
A servomechanism, usually shortened to just servo, is a device used to provide mechanical control at a distance. For example, a servo can be used at a remote location to proportionally follow the angular position of a control knob. The connection between the two is not mechanical, but electrical or wireless, for example. The most common type of servo is that mentioned, which gives positional control. Servos are commonly electrical or partially electronic in nature, using an electric motor as the primary means of creating mechanical force, though other types that use hydraulics, pneumatics or magnetic principles are available. Usually, servos operate on the principle of negative feedback, where the control input is compared to the actual position of the mechanical system as measured by some sort of transducer at the output. Any difference between the actual and wanted values (an "error signal") is amplified and used to drive the system in the direction necessary to reduce or eliminate the error. A whole science of this type of system has been developed, known as control theory. Servos are found in many applications. They operate the throttle of engines that use a cruise control. CNC machines use servos to make the motion axes of a machine tool follow the desired tool path. Fly-by-wire systems in aircraft use servos to actuate the control surfaces that control the aircraft. Radio-controlled airplanes use servos for the same purpose. Many autofocus cameras also use a servomechanism to accurately move the focus.
There is more Physics in Mechanical engineering as compared to Electronics engineering.
It depends greatly on if you have the skills to be a engineer,which is totaly different than dealing with information technology. My suggestion is to do some research on what an engineer does which in my opinion is quite in depth compared to information tech.
The type of degree you have does not effect your salary: If two engineers both got the same job, they would be paid the same - regardless of there degree type. BUT Allot of engineering companies, particularly the top ones, will only employ undergraduates with a masters degree. Therefore it does not effect salary but it effects your job market. Source: I am a undergraduate mechanical engineer myself.
hi
Neither. They can't be compared. One is mechanical and the other is a extinct species of animals.
The Chevy truck has the least mechanical problems as compared to the Ford and the Dodge trucks.
There are several advantages of a hydraulic clutch system. They include the use of compressible fluid, ease of spotting leaks over a mechanical clutch, and a high power density and actuators.
The circulatory system is like the gas/water company, supplying energy sources to all of your cells.
For a pulley, when is it that the mechanical advantage is greater than 1 and when is it that it is equal to 1? If a rope was hung over a pulley with unequal weights applied to both ends, the larger weight (77kg) would pull the lesser weight (30kg) upward, and so what would the mechanical advantage there be? The thing about this question is that if a rope were hung over a pulley and the tension at each point was the same (neglecting the mass of the rope and pulley), then how is it that if both ends of the rope point downward that the mechanical advantage becomes 2 (if there was just that one pulley)? Is the mechanical advantage any different if someone was applying a force to one end of the rope compared to gravity acting alone?
For a pulley, when is it that the mechanical advantage is greater than 1 and when is it that it is equal to 1? If a rope was hung over a pulley with unequal weights applied to both ends, the larger weight (77kg) would pull the lesser weight (30kg) upward, and so what would the mechanical advantage there be? The thing about this question is that if a rope were hung over a pulley and the tension at each point was the same (neglecting the mass of the rope and pulley), then how is it that if both ends of the rope point downward that the mechanical advantage becomes 2 (if there was just that one pulley)? Is the mechanical advantage any different if someone was applying a force to one end of the rope compared to gravity acting alone?
The circulatory system is like the gas/water company, supplying energy sources to all of your cells.
The circulatory system is like the gas/water company, supplying energy sources to all of your cells.