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The element is for content that is of "strong importance," including things of great seriousness or urgency (such as warnings). This could be a sentence that is of great importance to the whole page, or you could merely try to point out that some words are of greater importance compared to nearby content.
It is often confusing to new developers why there are so many ways to express the same thing on a rendered website. and are perhaps one of the most common sources of confusion, causing developers to ask "Should I use or ? Don't they both do the same thing?"
It may help to realize that both are valid and semantic elements in HTML and that it's a coincidence that they both have the same default styling (boldface) in most browsers (although some older browsers actually underline ). Each element is meant to be used in certain types of scenarios, and if you want to bold text for decoration, you should instead actually use the CSS font-weight property.
Adding to the confusion is the fact that while HTML 4 defined as indicating a stronger emphasis, HTML 5 defines as representing "strong importance for its contents." This is an important distinction to make.
While is used to change the meaning of a sentence as spoken emphasis does ("I love carrots" vs. "I love carrots"), is used to give portions of a sentence added importance (e.g., "Warning! This is very dangerous.") Both and can be nested to increase the relative degree of importance or stress emphasis, respectively.
The element is for content that is of \"strong importance,\" including things of great seriousness or urgency (such as warnings). This could be a sentence that is of great importance to the whole page, or you could merely try to point out that some words are of greater importance compared to nearby content.
It is often confusing to new developers why there are so many ways to express the same thing on a rendered website. and are perhaps one of the most common sources of confusion, causing developers to ask \"Should I use or ? Don't they both do the same thing?\"
Adding to the confusion is the fact that while HTML 4 defined as indicating a stronger emphasis, HTML 5 defines as representing \"strong importance for its contents.\" This is an important distinction to make.
While is used to change the meaning of a sentence as spoken emphasis does (\"I love carrots\" vs. \"I love carrots\"), is used to give portions of a sentence added importance (e.g., \"Warning! This is very dangerous.\") Both and can be nested to increase the relative degree of importance or stress emphasis, respectively.
Over the coming months, with the support of Strong Cities, Strong Communities initiatives, these cities and others across the country will pursue their plans for growth and development, helping to create jobs and improve the quality of life for hundreds of thousands of Americans. We are looking forward to working with you, in your community, to win the future by building stronger and more resilient communities and laying the foundation for economic growth.
While there are no clear examples of strong artificial intelligence, the field of AI is rapidly innovating. Another AI theory has emerged, known as artificial superintelligence (ASI), super intelligence, or Super AI. This type of AI surpasses strong AI in human intelligence and ability. However, Super AI is still purely speculative as we have yet to achieve examples of Strong AI.
Deep learning is also a sub-field of machine learning, which attempts to imitate the interconnectedness of the human brain using neural networks. Its artificial neural networks are made up layers of models, which identify patterns within a given dataset. They leverage a high volume of training data to learn accurately, which subsequently demands more powerful hardware, such as GPUs or TPUs. Deep learning algorithms are most strongly associated with human-level AI.
I've spent 20-plus years as a therapist helping individuals and couples build mental strength. Growing mentally stronger can help you become a better partner, bring out the best in each other, and improve your relationship.
You never want to invalidate their feelings. They're entitled to whatever emotion they have. But they are the one who is responsible for what they do with that emotion. Starting from there can help you build a stronger sense of trust.
Amy Morin is a psychotherapist, clinical social worker and instructor at Northeastern University. She is the author of "13 Things Mentally Strong People Don't Do" and "13 Things Mentally Strong Couples Don't Do." Her TEDx talk "The Secret of Becoming Mentally Strong" is one of the most viewed talks of all time. Follow her on Instagram and Facebook.
In nuclear physics and particle physics, the strong interaction, which is also often called the strong force or strong nuclear force, is a fundamental interaction that confines quarks into protons, neutrons, and other hadron particles. The strong interaction also binds neutrons and protons to create atomic nuclei, where it is called the nuclear force.
In the context of atomic nuclei, the force binds protons and neutrons together to form a nucleus and is called the nuclear force (or residual strong force).[2] Because the force is mediated by massive, short lived mesons on this scale, the residual strong interaction obeys a distance-dependent behavior between nucleons that is quite different from when it is acting to bind quarks within hadrons. There are also differences in the binding energies of the nuclear force with regard to nuclear fusion vs nuclear fission. Nuclear fusion accounts for most energy production in the Sun and other stars. Nuclear fission allows for decay of radioactive elements and isotopes, although it is often mediated by the weak interaction. Artificially, the energy associated with the nuclear force is partially released in nuclear power and nuclear weapons, both in uranium or plutonium-based fission weapons and in fusion weapons like the hydrogen bomb.[3][4]
A stronger attractive force was postulated to explain how the atomic nucleus was bound despite the protons' mutual electromagnetic repulsion. This hypothesized force was called the strong force, which was believed to be a fundamental force that acted on the protons and neutrons that make up the nucleus.
In 1964, Murray Gell-Mann and George Zweig proposed the quark model, which holds that protons and neutrons (along with other subatomic particles called hadrons and mesons) are actually made up of smaller particles called quarks.[5] The strong attraction between nucleons was the side-effect of a more fundamental force that bound the quarks together into protons and neutrons. The theory of quantum chromodynamics explains that quarks carry what is called a color charge, although it has no relation to visible color.[6] Quarks with unlike color charge attract one another as a result of the strong interaction, and the particle that mediates this was called the gluon.
The strong interaction is observable at two ranges, and mediated by different force carriers in each one. On a scale less than about 0.8 fm (roughly the radius of a nucleon), the force is carried by gluons and holds quarks together to form protons, neutrons, and other hadrons. On a larger scale, up to about 3 fm, the force is carried by mesons and binds nucleons (protons and neutrons) together to form the nucleus of an atom.[2] In the former context, it is often known as the color force, and is so strong that if hadrons are struck by high-energy particles, they produce jets of massive particles instead of emitting their constituents (quarks and gluons) as freely moving particles. This property of the strong force is called color confinement.
The strong force is described by quantum chromodynamics (QCD), a part of the Standard Model of particle physics. Mathematically, QCD is a non-abelian gauge theory based on a local (gauge) symmetry group called SU(3).
All quarks and gluons in QCD interact with each other through the strong force. The strength of interaction is parameterized by the strong coupling constant. This strength is modified by the gauge color charge of the particle, a group-theoretical property.
While color confinement implies that the strong force acts without distance-diminishment between pairs of quarks in compact collections of bound quarks (hadrons), at distances approaching or greater than the radius of a proton, a residual force (described below) remains. This residual force does diminish rapidly with distance, and is thus very short-range (effectively a few femtometres). It manifests as a force between the "colorless" hadrons, and is known as the nuclear force or residual strong force (and historically as the strong nuclear force).
The residual strong force is thus a minor residuum of the strong force that binds quarks together into protons and neutrons. This same force is much weaker between neutrons and protons, because it is mostly neutralized within them, in the same way that electromagnetic forces between neutral atoms (van der Waals forces) are much weaker than the electromagnetic forces that hold electrons in association with the nucleus, forming the atoms.[7]
Unlike the strong force, the residual strong force diminishes with distance, and does so rapidly. The decrease is approximately as a negative exponential power of distance, though there is no simple expression known for this; see Yukawa potential. The rapid decrease with distance of the attractive residual force and the less rapid decrease of the repulsive electromagnetic force acting between protons within a nucleus, causes the instability of larger atomic nuclei, such as all those with atomic numbers larger than 82 (the element lead).
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