Probability means possibility. It is a branch of mathematics that deals with the occurrence of a random event. The value is expressed from zero to one. Probability has been introduced in Maths to predict how likely events are to happen. The meaning of probability is basically the extent to which something is likely to happen. This is the basic probability theory, which is also used in the probability distribution, where you will learn the possibility of outcomes for a random experiment. To find the probability of a single event to occur, first, we should know the total number of possible outcomes. Show
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Probability is a measure of the likelihood of an event to occur. Many events cannot be predicted with total certainty. We can predict only the chance of an event to occur i.e., how likely they are going to happen, using it. Probability can range from 0 to 1, where 0 means the event to be an impossible one and 1 indicates a certain event. Probability for Class 10 is an important topic for the students which explains all the basic concepts of this topic. The probability of all the events in a sample space adds up to 1. For example, when we toss a coin, either we get Head OR Tail, only two possible outcomes are possible (H, T). But when two coins are tossed then there will be four possible outcomes, i.e {(H, H), (H, T), (T, H), (T, T)}. Download this lesson as PDF: –Download PDF Here Formula for ProbabilityThe probability formula is defined as the possibility of an event to happen is equal to the ratio of the number of favourable outcomes and the total number of outcomes. Probability of event to happen P(E) = Number of favourable outcomes/Total Number of outcomes Sometimes students get mistaken for “favourable outcome” with “desirable outcome”. This is the basic formula. But there are some more formulas for different situations or events. Solved Examples1) There are 6 pillows in a bed, 3 are red, 2 are yellow and 1 is blue. What is the probability of picking a yellow pillow? Ans: The probability is equal to the number of yellow pillows in the bed divided by the total number of pillows, i.e. 2/6 = 1/3. 2) There is a container full of coloured bottles, red, blue, green and orange. Some of the bottles are picked out and displaced. Sumit did this 1000 times and got the following results:
a) What is the probability that Sumit will pick a green bottle? Ans: For every 1000 bottles picked out, 450 are green. Therefore, P(green) = 450/1000 = 0.45 b) If there are 100 bottles in the container, how many of them are likely to be green? Ans: The experiment implies that 450 out of 1000 bottles are green. Therefore, out of 100 bottles, 45 are green. Probability TreeThe tree diagram helps to organize and visualize the different possible outcomes. Branches and ends of the tree are two main positions. Probability of each branch is written on the branch, whereas the ends are containing the final outcome. Tree diagrams are used to figure out when to multiply and when to add. You can see below a tree diagram for the coin: Types of ProbabilityThere are three major types of probabilities:
Theoretical ProbabilityIt is based on the possible chances of something to happen. The theoretical probability is mainly based on the reasoning behind probability. For example, if a coin is tossed, the theoretical probability of getting a head will be ½. Experimental ProbabilityIt is based on the basis of the observations of an experiment. The experimental probability can be calculated based on the number of possible outcomes by the total number of trials. For example, if a coin is tossed 10 times and head is recorded 6 times then, the experimental probability for heads is 6/10 or, 3/5. Axiomatic ProbabilityIn axiomatic probability, a set of rules or axioms are set which applies to all types. These axioms are set by Kolmogorov and are known as Kolmogorov’s three axioms. With the axiomatic approach to probability, the chances of occurrence or non-occurrence of the events can be quantified. The axiomatic probability lesson covers this concept in detail with Kolmogorov’s three rules (axioms) along with various examples. Conditional Probability is the likelihood of an event or outcome occurring based on the occurrence of a previous event or outcome. Probability of an EventAssume an event E can occur in r ways out of a sum of n probable or possible equally likely ways. Then the probability of happening of the event or its success is expressed as; P(E) = r/n The probability that the event will not occur or known as its failure is expressed as: P(E’) = (n-r)/n = 1-(r/n) E’ represents that the event will not occur. Therefore, now we can say; P(E) + P(E’) = 1 This means that the total of all the probabilities in any random test or experiment is equal to 1. What are Equally Likely Events?When the events have the same theoretical probability of happening, then they are called equally likely events. The results of a sample space are called equally likely if all of them have the same probability of occurring. For example, if you throw a die, then the probability of getting 1 is 1/6. Similarly, the probability of getting all the numbers from 2,3,4,5 and 6, one at a time is 1/6. Hence, the following are some examples of equally likely events when throwing a die:
are equally likely events, since the probabilities of each event are equal. Complementary EventsThe possibility that there will be only two outcomes which states that an event will occur or not. Like a person will come or not come to your house, getting a job or not getting a job, etc. are examples of complementary events. Basically, the complement of an event occurring in the exact opposite that the probability of it is not occurring. Some more examples are:
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Probability TheoryProbability theory had its root in the 16th century when J. Cardan, an Italian mathematician and physician, addressed the first work on the topic, The Book on Games of Chance. After its inception, the knowledge of probability has
brought to the attention of great mathematicians. Thus, Probability theory is the branch of mathematics that deals with the possibility of the happening of events. Although there are many distinct probability interpretations, probability theory interprets the concept precisely by expressing it through a set of axioms or hypotheses. These hypotheses help form the probability in terms of a possibility space, which allows a measure holding values between 0 and 1. This is known
as the probability measure, to a set of possible outcomes of the sample space. Probability Density FunctionThe Probability Density Function (PDF) is the probability function which is represented for the density of a continuous random variable lying between a certain range of values. Probability Density Function explains the normal distribution and how mean and deviation exists. The standard normal distribution is used to create a database or statistics, which are often used in science to represent the real-valued variables, whose distribution is not known. Important Topics in Maths :
Probability Terms and DefinitionSome of the important probability terms are discussed here:
Applications of ProbabilityProbability has a wide variety of applications in real life. Some of the common applications which we see in our everyday life while checking the results of the following events:
Other Major Applications of Probability
Problems and Solutions on ProbabilityQuestion 1: Find the probability of ‘getting 3 on rolling a die’. Solution: Sample Space = S = {1, 2, 3, 4, 5, 6} Total number of outcomes = n(S) = 6 Let A be the event of getting 3. Number of favourable outcomes = n(A) = 1 i.e. A = {3} Probability, P(A) = n(A)/n(S) = 1/6 Hence, P(getting 3 on rolling a die) = 1/6 Question 2: Draw a random card from a pack of cards. What is the probability that the card drawn is a face card? Solution: A standard deck has 52 cards. Total number of outcomes = n(S) = 52 Let E be the event of drawing a face card. Number of favourable events = n(E) = 4 x 3 = 12 (considered Jack, Queen and King only) Probability, P = Number of Favourable Outcomes/Total Number of Outcomes P(E) = n(E)/n(S) = 12/52 = 3/13 P(the card drawn is a face card) = 3/13 Question 3: A vessel contains 4 blue balls, 5 red balls and 11 white balls. If three balls are drawn from the vessel at random, what is the probability that the first ball is red, the second ball is blue, and the third ball is white? Solution: Given, The probability to get the first ball is red or the first event is 5/20. Since we have drawn a ball for the first event to occur, then the number of possibilities left for the second event to occur is 20 – 1 = 19. Hence, the probability of getting the second ball as blue or the second event is 4/19. Again with the first and second event occurring, the number of possibilities left for the third event to occur is 19 – 1 = 18. And the probability of the third ball is white or the third event is 11/18. Therefore, the probability is 5/20 x 4/19 x 11/18 = 44/1368 = 0.032. Or we can express it as: P = 3.2%. Question 4: Two dice are rolled, find the probability that the sum is:
Solution: To find the probability that the sum is equal to 1 we have to first determine the sample space S of two dice as shown below. S = { (1,1),(1,2),(1,3),(1,4),(1,5),(1,6) (2,1),(2,2),(2,3),(2,4),(2,5),(2,6) (3,1),(3,2),(3,3),(3,4),(3,5),(3,6) (4,1),(4,2),(4,3),(4,4),(4,5),(4,6) (5,1),(5,2),(5,3),(5,4),(5,5),(5,6) (6,1),(6,2),(6,3),(6,4),(6,5),(6,6) } So, n(S) = 36 1) Let E be the event “sum equal to 1”. Since, there are no outcomes which where a sum is equal to 1, hence, P(E) = n(E) / n(S) = 0 / 36 = 0 2) Let A be the event of getting the sum of numbers on dice equal to 4. Three possible outcomes give a sum equal to 4 they are: A = {(1,3),(2,2),(3,1)} n(A) = 3 Hence, P(A) = n(A) / n(S) = 3 / 36 = 1 / 12 3) Let B be the event of getting the sum of numbers on dice is less than 13. From the sample space, we can see all possible outcomes for the event B, which gives a sum less than B. Like: (1,1) or (1,6) or (2,6) or (6,6). So you can see the limit of an event to occur is when both dies have number 6, i.e. (6,6). Thus, n(B) = 36 Hence, P(B) = n(B) / n(S) = 36 / 36 = 1 Video LecturesIntroductionSolving Probability QuestionsProbability Important TopicsProbability Important QuestionsProbability Problems
Frequently Asked Questions (FAQs) on ProbabilityProbability is a
branch of mathematics that deals with the occurrence of a random event. For example, when a coin is tossed in the air, the possible outcomes are Head and Tail. The probability formula is defined as the possibility of an event to happen is
equal to the ratio of the number of favourable outcomes to the total number of outcomes. There are three major types of probabilities: If A and B are two events, then; In probability, the complement rule states that “the sum of probabilities of an event and its complement should be equal to 1”. If A is an event, then the complement rule is given as: The three ways to present the probability values are: What does the probability of 0 represent?The probability of 0 represents that the event will not happen or that it is an impossible event. What is the sample space for tossing two coins?The sample space for tossing two coins is: What is a branch of mathematics which deals with uncertainty and a measure or estimation of how likely it is an event will occur?Probability is the branch of mathematics concerning numerical descriptions of how likely an event is to occur, or how likely it is that a proposition is true. The probability of an event is a number between 0 and 1, where, roughly speaking, 0 indicates impossibility of the event and 1 indicates certainty.
What is the branch of mathematics that deals with uncertainty?Uncertainty theory is a branch of mathematics based on normality, monotonicity, self-duality, countable subadditivity, and product measure axioms. Mathematical measures of the likelihood of an event being true include probability theory, capacity, fuzzy logic, possibility, and credibility, as well as uncertainty.
What do you call a measure or estimation of how likely the event will occur?In everyday terminology, probability can be thought of as a numerical measure of the likelihood that a particular event will occur.
Is a measure or estimation of how likely it is that an event will occur it is a number between and including 0 and 1 which can be expressed as a?A probability is a number that reflects the chance or likelihood that a particular event will occur. Probabilities can be expressed as proportions that range from 0 to 1, and they can also be expressed as percentages ranging from 0% to 100%.
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