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Either Dr Wehrner von Braun, a rocket scientist, or Dr Edward Murphy, Jr, who worked for Mc-Donnell-Dougles, a builder of space vehicles. Dr Murphy is famous for, "Murphy's Law", which made the space program possible by minimizing mistakes.
Observatories are often located high up in the mountains because the elevation provides several advantages. Firstly, the thin and dry mountain air reduces atmospheric turbulence and light pollution, allowing for clearer observations. Secondly, being at higher altitudes helps to minimize the interference caused by Earth's atmosphere, especially for observations in the infrared and radio wavelengths. Lastly, mountains offer a stable platform for telescopes, minimizing vibrations from the ground and enhancing the precision of observations.
You get parallax errors with analogue meters if you don't align your eye so that it is perpendicular to the pointer. When this happens the pointer can appear to line up with the wrong mark on the scale. The further your point of view is away from the perpendicular, the greater the error. The potential for errors can be reduced by minimizing the gap between the pointer and the scale or better still fitting a mirror behind the pointer so that it is in the same plane as the scale. The mirror assists the viewer find the correct point of view, since in this condition (correct point of view) the reflection of the pointer will be hidden behind the pointer.
The asteroid will always take the path minimizing its Lagrangian, known as the least action principle in Lagrangian mechanics. With conservative forces, there are four basic shapes for two different cases. Either the asteroid is trapped in the gravitational pull of an object, or it is not trapped. If the asteroid's energy is low enough to be trapped, then it can have either a circular or elliptical orbit. If it is not trapped, then this 'free asteroid' (much like a free electron) can have either an parabolic or hyperbolic path. Much of this information came from "Classical Mechanics" by kibble and Berkshire (although there are much better books). Depends on the asteroid. Most of them in our solar system rotate around the sun like we do. The path, as with all the planets is an ellipse.
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The bifilar suspension is a technique used to minimize the effect of external vibrations on sensitive instruments. The two main applications of bifilar suspension are: Pendulum clocks: Bifilar suspension is commonly used in pendulum clocks to provide a stable and accurate timekeeping mechanism. The suspension consists of two parallel wires that support the pendulum, which reduces the effects of external vibrations and allows the pendulum to swing freely. Laboratory instruments: Bifilar suspension is also used in various laboratory instruments, such as analytical balances and galvanometers, to reduce the impact of external vibrations on the accuracy of measurements. In these applications, the bifilar suspension is used to support the measuring device and isolate it from vibrations caused by other equipment or activities in the laboratory. Overall, bifilar suspension is a simple and effective technique for minimizing the effects of external vibrations on sensitive instruments, and it is commonly used in various applications that require precise measurements or timekeeping.
MBA applications often require multiple essays. Think of the essays as a group, and respond to each prompt fully while minimizing overlap between essays.
One reason that your windows keep minimizing could be a virus on your computer. Run your virus scan to see if you have a virus.
yes
by minimizing the applied force.
minimizing
By minimizing pollution from production
By minimizing pollution from production
Maximizing benefits and minimizing costs
It is for minimizing the taxes you pay in a legal way
Which goal of the constitiution is related to the government keeping social order by providing safety and minimizing conflict for citizens?