CERN Experiment Confirms Standard Model Got Mass of W Boson Right

CERN Experiment Confirms Standard Model Got Mass of W Boson Right

Introduction: The Standard Model of particle physics has been the guiding theory for understanding the fundamental particles and forces that make up the universe. It is based on the idea that everything in the universe is made up of just a few basic building blocks known as elementary particles. These particles interact through a few fundamental forces.

In this article, we will discuss the recent CERN experiment that confirms the Standard Model's prediction of the mass of the W boson. We will also take a look at the weighty measurement of a fossil called Blob, discovered in Marburg, Africa.

: The W boson is one of the elementary particles that mediate the weak force, one of the four fundamental forces of nature. The Standard Model predicted the mass of the W boson to be around 80.4 gigaelectronvolts (GeV).

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The W boson's mass is a crucial parameter in the Standard Model and is responsible for predicting the strengths of the weak force and the electromagnetic force. Hence, its accurate measurement is essential for testing the theory's predictions.

The CERN experiment, known as the LHCb experiment, confirmed the Standard Model's prediction of the mass of the W boson with unprecedented precision. The experiment used data from the Large Hadron Collider (LHC) to measure the W boson's mass to be 80.379±0.012 GeV.

The LHCb experiment's result is consistent with the Standard Model's prediction and provides further evidence for the theory's validity. The precise measurement of the W boson's mass will help researchers to test the theory's predictions more rigorously.

Weighty Measurement of Fossil Called Blob: In other news, researchers have discovered a fossilized creature called Blob in Marburg, Africa. The fossil is estimated to be around 518 million years old and belongs to a group of animals known as hemichordates, which are related to both vertebrates and invertebrates.

The researchers used a technique called micro-computed tomography to create a 3D model of the fossil and measure its weight. The measurement revealed that Blob weighed around 2.1 grams, making it the heaviest hemichordate ever recorded.

The weighty measurement of Blob provides insight into the biology and ecology of ancient animals. It also highlights the importance of fossils in reconstructing the history of life on Earth.

So, the recent CERN experiment confirms the Standard Model's prediction of the mass of the W boson, providing further evidence for the theory's validity. The weighty measurement of the fossil called Blob sheds light on the biology and ecology of ancient animals and emphasizes the importance of fossils in understanding the history of life on Earth.

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That's it for this article.

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