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* **Weight:** Approximately 151 kg (kerb weight)
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Profundizando en la historia, descubrimos que el nombre **Crescencia** tiene raíces latinas y una conexión con la antigua Roma. En la época romana, los nombres eran mucho más que simples identificadores; reflejaban valores, aspiraciones y, a menudo, la conexión con la religión y la mitología. "Crescens" era un nombre que se utilizaba para expresar how to grow bilimbi tree el deseo de crecimiento y prosperidad, tanto en el ámbito personal como en el familiar. Era un nombre que se consideraba auspicioso, ya que se creía que traía buena suerte y fortuna. Imaginen la influencia de esta conexión con la historia romana; ¡es casi como llevar un pedazo de esa rica cultura en el nombre!
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Alright, let’s zoom in on the main players: the **ATLAS** and **CMS** detectors. These are not your average measuring devices; they're massive, incredibly complex, and designed to capture the debris from the LHC's high-energy collisions. Think of them as giant, multi-layered cameras that can record the paths and properties of countless particles. Imagine building a camera as tall as a five-story building, weighing thousands of tons, and able to detect particles traveling almost at the speed of light – that's the scale we're talking about! Both detectors use similar principles, but they have different designs and are built by different international collaborations. **ATLAS** (A Toroidal LHC ApparatuS) is one of the largest particle detectors ever built. It's designed to measure a wide range of particles and energies. The CMS (Compact Muon Solenoid) detector is another major detector at the LHC. It's designed to detect muons, which are a type of fundamental particle that is similar to an electron but is much heavier. Each detector has multiple layers of different types of sub-detectors, each optimized to measure specific types of particles, like electrons, muons, photons, and jets of other particles. These layers, or sub-detectors, work in concert, allowing scientists to piece together a comprehensive picture of what happened during each collision. These detectors provide scientists with information on the momentum, energy, and charge of the particles produced in the collisions. The data from these detectors is used to identify the Higgs boson and other particles, as well as to study the properties of these particles.
