Explain how to Find the probability of A union of two or more events brainly

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A Venn diagram is an illustration that uses circles to show the relationships among things or finite groups of things. Circles that overlap have a commonality while circles that do not overlap do not share those traits.

Venn diagrams help to visually represent the similarities and differences between two concepts. They have long been recognized for their usefulness as educational tools. Since the mid-20th century, Venn diagrams have been used as part of the introductory logic curriculum and in elementary-level educational plans around the world.

• A Venn diagram uses circles that overlap or don't overlap to show the commonalities and differences among things or groups of things.
• Things that have commonalities are shown as overlapping circles while things that are distinct stand alone.
• Venn diagrams are now used as illustrations in business and in many academic fields.

Venn diagrams are useful for illustrating how different concepts or factors intersect with one another. They can show, at a glance, how things are similar or different and where and how they overlap. Often, the center of a Venn diagram (the intersection of two or more circles) represents some nexus or main idea that can be decomposed into the various other circles, with labels on the outer portions more general and distinct ideas than those toward the center.

The overlapping areas can also be used to show where two otherwise disparate contexts share commonalities. For instance, in the example diagram below we see that while the urban and rural contexts are distinct with their own set of acivities, they also do share sporting events.

While there are many ways to organize a Venn diagram, they most often consist of overlapping circles. Each circle by itself represents a set, which may include ideas, concepts, numbers, or objects.

When circles overlap or intersect, those sub-sets that are shared are known as a union or intersection. Areas that don't overlap show differences between sets, and a complement set refers to everything not shared by a particular set or sub-set.

The English logician John Venn popularized the diagram in the 1880s. He called them Eulerian circles after the Swiss mathematician Leonard Euler, who created similar diagrams in the 1700s.

The term Venn diagram did not appear until 1918 when Clarence Lewis, an American academic philosopher and the eventual founder of conceptual pragmatism, referred to the circular depiction as the Venn diagram in his book A Survey of Symbolic Logic.

Venn studied and taught logic and probability theory at Cambridge University, where he developed his method of using diagrams to illustrate the branch of mathematics known as set theory. He published a precedent-setting work, The Logic of Chance, which explained the frequency theory of probability. In it, he argued that probability, contrary to popular assumption, should be established based on the regularity with which something is predicted to occur. In another book, Symbolic Logic, Venn built on and developed mathematician George Boole’s theories on algebra. This work helped him develop the Venn diagram.

Venn diagrams have been used since the mid-20th century in classrooms from the elementary school level to introductory logic.

Venn diagrams are used to depict how items relate to each other against an overall backdrop, universe, data set, or environment. A Venn diagram could be used, for example, to compare two companies within the same industry by illustrating the products both companies offer (where circles overlap) and the products that are exclusive to each company (outer circles). 

Venn diagrams are, at a basic level, simple pictorial representations of the relationship that exists between two sets of things. However, they can be much more complex. Still, the streamlined purpose of the Venn diagram to illustrate concepts and groups has led to their popularized use in many fields, including statistics, linguistics, logic, education, computer science, and business.

A Venn diagram could be drawn to illustrate fruits that come in red or orange colors. Below, we can see that there are orange fruits (circle B) such as persimmons and tangerines while apples and cherries (circle A) come in red colors. Peppers and tomatoes come in both red and orange colors, as represented by the overlapping area of the two circles.

You might also draw a Venn diagram to help decide which of two cars to purchase. The Venn diagram shows the features that are exclusive to each car and the features that both cars have.

Below, we see that Car A is a sedan that's powered by gasoline and gets 20 miles per gallon, while Car B is a hybrid, gets 40 miles-per-gallon for mileage, and is a hatchback.

The shaded region where the two circles overlap shows the features that both cars have in common, which include a radio, four doors, Bluetooth capability, and airbags.

The Venn diagram graphically conveys the similarities and differences between the two cars to help decide which to purchase.

A Venn diagram in math is used in logic theory and set theory to show various sets or data and their relationship with each other.

A Venn diagram is read by observing all of the circles that make up the entire diagram. Each circle is its own item or data set. The portions of the circles that overlap indicate the areas that are in common amongst the different items whereas the parts that do not overlap indicate unique traits among the item or data set represented by the circle.

They are called Venn diagrams because the diagram was developed by John Venn, an English logician.

The middle of a Venn diagram where two or more sets overlap is known as the intersection.

While often employing a pair or triplet of circles, Venn diagram can use any number of circles (or any other shape) to show the differences and intersections of different sets.