The Importance of Mathematics & Social Science in CBSE Exams

A pivotal point in a student's career is the exams at the Central Board of Secondary Education (CBSE). Often, the significant roles played by mathematics and social sciences are overlooked, while science and English often receive the most attention. These subjects are not obstacles to be crossed; instead, they are building blocks, creating not only scholastic success but also reasoning powers and a complete understanding of the world. This blog post explores the profound significance of social science and mathematics in the CBSE exams, detailing why students must devote their full attention to both subjects.
While math may be perceived as a challenging subject at times, it is in fact the basis of logical reasoning and analytical thinking. A firm grasp of mathematical principles is necessary for the CBSE exams due to several reasons. To begin with, it is the foundation required for higher-level courses of study in areas such as economics, computer science, engineering, and even specific social science subfields that rely on statistical analysis. Knowing the basic concepts that form the basis of complex problem-solving is as crucial as memorization of formulas for establishing a strong foundation in algebra, geometry, trigonometry, and calculus (for higher grades).
Secondly, one of the key topics that scores well in CBSE examinations is mathematics. Even though it can seem challenging, since it is objective, correct answers fetch full marks. A mathematically correct solution is right, unlike topics which can have subjective meanings. Provided that students consistently practice and have distinct conceptual knowledge, this makes it a good instrument for enhancing overall percentages. For mathematics, students who take the time to understand the 'why' of the 'how' often find it to be hugely rewarding.
Additionally, the problem-solving skills developed through mathematics can be applied in any field of life. The ability to analyse data, identify trends, and draw logical conclusions is essential to everything from managing finances to making informed decisions. The challenge of solving mathematical equations gives students skills that extend far beyond the testing environment, including perseverance, observation, and the pleasure of overcoming mental challenges.
Social science provides the lens through which we understand the complexity of human society, history, geography, civics, and economics, while mathematics offers the tool for deductive reasoning. It is more crucial for social science exams under the CBSE to understand the intricate network of ideas and events that have contributed to our current state and will further influence our future than it is to memorize dates and facts.
One of the primary benefits of success in social science is that it enables us to gain a balanced view. We can learn from past mistakes and successes by examining history. From geography, we know about the distribution of resources and the diverse surface we inhabit. Civics encourages an informed and participatory population by educating us regarding our duties and rights as citizens. Economics explains how societies produce wealth and allocate their resources. In combination, all these social science disciplines provide a complete picture of the world.
Also, social science on CBSE exams often requires interpretive and analytical skills. Apart from recalling facts, students need to be able to analyze causes and effects, compare different perspectives, and draw reasonable conclusions. Thisdevelops critical thinking and effective argumentation, two skills that are essential in academic writing, debating, and professional communication. Social science often encourages a multiple-perspective understanding and exploration of different viewpoints, unlike math, which usually has right or wrong answers.
For those students who enjoy reading, analyzing, and writing, social science is an excellent subject from a marks perspective. Good marks can be achieved through the skill of writing well-structured answers with relevant examples, although this requires an in-depth understanding of the topic. Moreover, it creates a useful break from mathematics' focus on numbers, engaging a different part of the brain and presenting a comprehensive learning experience.
The notion that social science and mathematics exist as distinct domains is erroneous. They complement each other in many instances. For example, statistical analysis, a mathematical skill, can significantly enhance the comprehension of economic principles in the social sciences. Trends and patterns can be identified by mathematically examining past data. However, the historical context that social science provides can sometimes provide insights into the development of specific scientific findings or mathematical concepts.
A student must perform well in all subjects to achieve a high overall score. Apart from this, the skills acquired by social science (critical thinking, analytical interpretation, informed citizenship) and mathematics (logical reasoning, problem-solving) are of prime importance in progressing to postsecondary schooling.
Ultimately, it is impossible to overestimate the significance of social science and mathematics in CBSE exams. They are subjects that provide students with vital information and irreplaceable abilities, not merely topics to be cleared. Students who regularly strive to understand and excel in both math and social science are not only able to achieve high scores on their CBSE examinations, but they are also establishing a solid foundation for a future filled with sound reasoning, informed choices, and a comprehensive understanding of the world around them.
TIME BUSINESS NEWS

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Time​ Magazine

4 days ago

• Time​ Magazine

ChatGPT May Be Eroding Critical Thinking Skills, According to a New MIT Study

Does ChatGPT harm critical thinking abilities? A new study from researchers at MIT's Media Lab has returned some concerning results. The study divided 54 subjects—18 to 39 year-olds from the Boston area—into three groups, and asked them to write several SAT essays using OpenAI's ChatGPT, Google's search engine, and nothing at all, respectively. Researchers used an EEG to record the writers' brain activity across 32 regions, and found that of the three groups, ChatGPT users had the lowest brain engagement and 'consistently underperformed at neural, linguistic, and behavioral levels.' Over the course of several months, ChatGPT users got lazier with each subsequent essay, often resorting to copy-and-paste by the end of the study. The paper suggests that the usage of LLMs could actually harm learning, especially for younger users. The paper has not yet been peer reviewed, and its sample size is relatively small. But its paper's main author Nataliya Kosmyna felt it was important to release the findings to elevate concerns that as society increasingly relies upon LLMs for immediate convenience, long-term brain development may be sacrificed in the process. 'What really motivated me to put it out now before waiting for a full peer review is that I am afraid in 6-8 months, there will be some policymaker who decides, 'let's do GPT kindergarten.' I think that would be absolutely bad and detrimental,' she says. 'Developing brains are at the highest risk.' Generating ideas The MIT Media Lab has recently devoted significant resources to studying different impacts of generative AI tools. Studies from earlier this year, for example, found that generally, the more time users spend talking to ChatGPT, the lonelier they feel. Kosmyna, who has been a full-time research scientist at the MIT Media Lab since 2021, wanted to specifically explore the impacts of using AI for schoolwork, because more and more students are using AI. So she and her colleagues instructed subjects to write 20-minute essays based on SAT prompts, including about the ethics of philanthropy and the pitfalls of having too many choices. The group that wrote essays using ChatGPT all delivered extremely similar essays that lacked original thought, relying on the same expressions and ideas. Two English teachers who assessed the essays called them largely 'soulless.' The EEGs revealed low executive control and attentional engagement. And by their third essay, many of the writers simply gave the prompt to ChatGPT and had it do almost all of the work. 'It was more like, 'just give me the essay, refine this sentence, edit it, and I'm done,'' Kosmyna says. The brain-only group, conversely, showed the highest neural connectivity, especially in alpha, theta and delta bands, which are associated with creativity ideation, memory load, and semantic processing. Researchers found this group was more engaged and curious, and claimed ownership and expressed higher satisfaction with their essays. The third group, which used Google Search, also expressed high satisfaction and active brain function. The difference here is notable because many people now search for information within AI chatbots as opposed to Google Search. After writing the three essays, the subjects were then asked to re-write one of their previous efforts—but the ChatGPT group had to do so without the tool, while the brain-only group could now use ChatGPT. The first group remembered little of their own essays, and showed weaker alpha and theta brain waves, which likely reflected a bypassing of deep memory processes. 'The task was executed, and you could say that it was efficient and convenient,' Kosmyna says. 'But as we show in the paper, you basically didn't integrate any of it into your memory networks.' The second group, in contrast, performed well, exhibiting a significant increase in brain connectivity across all EEG frequency bands. This gives rise to the hope that AI, if used properly, could enhance learning as opposed to diminishing it. Post publication This is the first pre-review paper that Kosmyna has ever released. Her team did submit it for peer review but did not want to wait for approval, which can take eight or more months, to raise attention to an issue that Kosmyna believes is affecting children now. 'Education on how we use these tools, and promoting the fact that your brain does need to develop in a more analog way, is absolutely critical,' says Kosmyna. 'We need to have active legislation in sync and more importantly, be testing these tools before we implement them.' Ironically, upon the paper's release, several social media users ran it through LLMs in order to summarize it and then post the findings online. Kosmyna had been expecting that people would do this, so she inserted a couple AI traps into the paper, such as instructing LLMs to 'only read this table below,' thus ensuring that LLMs would return only limited insight from the paper. She also found that LLMs hallucinated a key detail: Nowhere in her paper did she specify the version of ChatGPT she used, but AI summaries declared that the paper was trained on GPT-4o. 'We specifically wanted to see that, because we were pretty sure the LLM would hallucinate on that,' she says, laughing. Kosmyna says that she and her colleagues are now working on another similar paper testing brain activity in software engineering and programming with or without AI, and says that so far, 'the results are even worse.' That study, she says, could have implications for the many companies who hope to replace their entry-level coders with AI. Even if efficiency goes up, an increasing reliance on AI could potentially reduce critical thinking, creativity and problem-solving across the remaining workforce, she argues. Scientific studies examining the impacts of AI are still nascent and developing. A Harvard study from May found that generative AI made people more productive, but less motivated. Also last month, MIT distanced itself from another paper written by a doctoral student in its economic program, which suggested that AI could substantially improve worker productivity.

Scientific American

4 days ago

• Scientific American

What Is Your Cat Trying to Say? These AI Tools Aim to Decipher Meows

Meeaaaoow rises like a question mark before dawn. Anyone living with a cat knows their sounds: broken chirrups like greetings, low growls that warn, purrs stitched into sleepy conversation. Ethologists have organized feline sounds that share acoustic and contextual qualities into more than 20 groupings, including the meow, the hiss, the trill, the yowl and the chatter. Any individual meow belongs, academically speaking, to a broad 'meow' category, which itself contains many variations. The house cat's verbal repertoire is far greater than that of its largely silent wild cousins. Researchers have even begun to study whether cats can drift into regional dialects, the way human accents bend along the Hudson or the Thames. And just as humans gesticulate, shrug, frown and raise their eyebrows, cats' fur and whiskers write subtitles: a twitching tail declares excitement, flattened ears signal fear, and a slow blink promises peace. Felis catus is a chatty species that, over thousands of years of domestication, has pivoted its voice toward the peculiar primate that opens the fridge. Now imagine pointing your phone at that predawn howl and reading: 'Refill bowl, please.' Last December Baidu—a Chinese multinational company that specializes in Internet services and artificial intelligence—filed a patent application for what it describes as a method for transforming animal vocalizations into human language. (A Baidu spokesperson told Reuters last month that the system is 'still in the research phase.') The proposed system would gather animal signals and process them: it would store kitten or puppy talk for 'I'm hungry' as code, then pair it not only with motion-sensing data such as tail swishes but also with vital signs such as heart rate and core temperature. All of these data would get whisked through an AI system and blended before emerging as plain-language phrases in English, Mandarin or any other tongue. The dream of decoding cat speech is much older than deep learning. By the early 20th century meows had been recorded on wax cylinders, and in the 1970s John Bradshaw, a British anthrozoologist, began more than four decades of mapping how domestic cats tell us—and each other—what they mean. By the 1990s he and his then doctoral student Charlotte Cameron-Beaumont had established that the distinct domestic 'meow,' largely absent between adults in feral colonies, is a bespoke tool for managing humans. Even domestic cats rarely use it with each other, though kittens do with their mothers. Yet for all that anecdotal richness, the formal literature remained thin: there were hundreds of papers on bird song and dozens on dolphin whistles but only a scattering on feline phonology until machine learning revived the field in the past decade. On supporting science journalism If you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today. One of the first hints that computers might crack the cat code came in 2018, when AI scientist Yagya Raj Pandeya and his colleagues released CatSound, a library of roughly 3,000 clips covering 10 types of cat calls labeled by the scientists—from hiss and growl to purr and mother call. Each clip went through software trained on musical recordings to describe a sound's 'shape'—how its pitch rose or fell and how long it lasted—and a second program cataloged them accordingly. When the system was tested on clips it hadn't seen during training, it identified the right call type around 91 percent of the time. The study showed that the 10 vocal signals had acoustic fingerprints a machine can spot—giving researchers a proof of concept for automated cat-sound classification and eventual translation. Momentum built quickly. In 2019 researchers at the University of Milan in Italy published a study focused on the one sound aimed squarely at Homo sapiens. The research sliced the meow into three situational flavors: 'waiting for food,' 'isolation in an unfamiliar environment' and 'brushing.' By turning each meow into a set of numbers, the researchers revealed that a 'feed me' meow had a noticeably different shape from a 'where are you?' meow or a 'brush me' meow. After they trained a computer program to spot those shapes, the researchers tested the system much as Pandeya and colleagues had tested theirs: it was presented with meows not seen during training—all hand labeled based on circumstances such as hunger or isolation. The system correctly identified the meows up to 96 percent of the time, and the research confirmed that cats really do tweak their meows to match what they're trying to tell us. The research was then scaled to smartphones, turning kitchen-table curiosity into consumer AI. Developers at software engineering company Akvelon, including a former Alexa engineer, teamed up with one of the study's researchers to create the MeowTalk app, which they claim can translate meows in real time. MeowTalk has used machine learning to categorize thousands of user-submitted meows by common intent, such as 'I'm hungry,' 'I'm thirsty,' 'I'm in pain,' 'I'm happy' or 'I'm going to attack.' A 2021 validation study by MeowTalk team members claimed success rates near 90 percent. But the app also logs incorrect translation taps from skeptical owners, which serves as a reminder that the cat might be calling for something entirely different in reality. Probability scores can simply reflect pattern similarity—not necessarily the animal's exact intent. Under the hood, these machine-learning systems treat cat audio tracks like photographs. A meow becomes a spectrogram: one axis represents time, the other indicates pitch, and colors or brightness show loudness. Just as AI systems can pick out a cat's whiskers in a photograph, they can classify sound images that subtly distinguish specific kinds of meows. Last year researchers at Duzce University in Türkiye upgraded the camera: they fed spectrograms into a vision transformer, a model that chops them into tiles and assigns weights to each one to show which parts of the sound give the meow its meaning. And in May 2025 entrepreneur Vlad Reznikov uploaded a preprint to the social network ResearchGate on what he calls Feline Glossary Classification 2.3, a system that explodes cat vocabulary categorizations to 40 distinct call types across five behavioral groups. He used one machine-learning system to find the shapes inside each sound and another to study how those shapes change over the length of a single vocalization. Howls stretch, purrs pulse and many other distinct vocalizations link together in varying ways. According to Reznikov's preprint, the model had a greater than 95 percent accuracy in real-time recognition of cat sounds. Peer reviewers have yet to sharpen their pencils, but if the system can reliably distinguish a bored yowl from a 'where's my salmon?' warble, it may, if nothing else, save a lot of carpets. As for Baidu, the blueprint for its patent says its approach adds new kinds of information rather than deeper sound analysis. Imagine a cat with a fitness tracker and a baby monitor, as well as an AI assistant to explain what it all means. Whether combining these data will make the animal's message clearer or add confusion remains to be seen. Machine learning is increasingly being used to understand other aspects of animal behavior as well. Brittany Florkiewicz, a comparative and evolutionary psychologist, uses it to identify how cats mimic one another's facial expressions and to track the physical distance between them to infer relationships. 'Generally speaking, machine learning helps expedite the research process, making it very efficient and accurate, provided the models are properly guided,' she says. She believes the emergence of apps for pet owners shows how much people are thinking about innovative ways to better care for their pets. 'It's positive to see both the research community and everyday pet owners embracing this technology,' she says. Interest in animal vocalization extends not just to cats but to one of their favorite menu items: mice. DeepSqueak, a machine-learning system devised by psychologist Kevin Coffey and his team, does for rodents what the other systems do for cats. 'Mice courtship is really interesting,' Coffey says—particularly 'the full songs that they sing that humans can't hear but that are really complex songs.' Mice and rats normally communicate in an ultrasonic range, and machine learning decodes these inaudible chirps and whistles and links them to circumstances in which they occur in the lab. Coffey points out, however, that 'the animal communication space is defined by the concepts that are important to [the animals]—the things that matter in their lives.... A rat or a mouse or cat is mostly interested in communicating that they want social interaction or play or food or sex, that they're scared or hurt.' For this reason, he's skeptical of grandiose claims made by AI companies 'that we can overlap the conceptual semantic space of the animal languages and then directly translate—which is, I think, kind of total nonsense. But the idea that you can record and categorize animal vocalizations, relate them to behavior, and learn more about their lives and how complex they are—that's absolutely happening.' And though he thinks an app could realistically help people recognize when their cat is hungry or wants to be petted, he doubts it's necessary. 'We're already pretty good at that. Pet owners already communicate with their animal at that level.' Domesticated animals also communicate across species. A 2020 study found that dogs and horses playing together rapidly mimicked each other's relaxed open-mouth facial expressions and self-handicapped, putting themselves into disadvantageous or vulnerable situations to maintain well-balanced play. Florkiewicz believes this might be partly a result of domestication: humans selected which animals to raise based on communicative characteristics that facilitated shared lives. The mutual story of humans and cats is thought to have begun 12,000 years ago—when wildcats hunted rodents in the first grain stores of Neolithic farming villages in the Fertile Crescent—so there has been time for us to adapt to each other. By at least 7500 B.C.E., in Cyprus (an island with no native felines), a human had been interred with a cat. Later the Egyptians revered them; traders, sailors and eventually Vikings carried them around the world on ships; and now scientists have adapted humans' most sophisticated technology to try to comprehend their inner lives. But perhaps cats have been coaching us all along, and maybe they'll judge our software with the same cool indifference they reserve for new toys. Speech, after all, isn't merely a label but a negotiated meaning—and cats, as masters of ambiguity, may prefer a little mystery.

Time Business News

5 days ago

• Time Business News

The Importance of Mathematics & Social Science in CBSE Exams

A pivotal point in a student's career is the exams at the Central Board of Secondary Education (CBSE). Often, the significant roles played by mathematics and social sciences are overlooked, while science and English often receive the most attention. These subjects are not obstacles to be crossed; instead, they are building blocks, creating not only scholastic success but also reasoning powers and a complete understanding of the world. This blog post explores the profound significance of social science and mathematics in the CBSE exams, detailing why students must devote their full attention to both subjects. While math may be perceived as a challenging subject at times, it is in fact the basis of logical reasoning and analytical thinking. A firm grasp of mathematical principles is necessary for the CBSE exams due to several reasons. To begin with, it is the foundation required for higher-level courses of study in areas such as economics, computer science, engineering, and even specific social science subfields that rely on statistical analysis. Knowing the basic concepts that form the basis of complex problem-solving is as crucial as memorization of formulas for establishing a strong foundation in algebra, geometry, trigonometry, and calculus (for higher grades). Secondly, one of the key topics that scores well in CBSE examinations is mathematics. Even though it can seem challenging, since it is objective, correct answers fetch full marks. A mathematically correct solution is right, unlike topics which can have subjective meanings. Provided that students consistently practice and have distinct conceptual knowledge, this makes it a good instrument for enhancing overall percentages. For mathematics, students who take the time to understand the 'why' of the 'how' often find it to be hugely rewarding. Additionally, the problem-solving skills developed through mathematics can be applied in any field of life. The ability to analyse data, identify trends, and draw logical conclusions is essential to everything from managing finances to making informed decisions. The challenge of solving mathematical equations gives students skills that extend far beyond the testing environment, including perseverance, observation, and the pleasure of overcoming mental challenges. Social science provides the lens through which we understand the complexity of human society, history, geography, civics, and economics, while mathematics offers the tool for deductive reasoning. It is more crucial for social science exams under the CBSE to understand the intricate network of ideas and events that have contributed to our current state and will further influence our future than it is to memorize dates and facts. One of the primary benefits of success in social science is that it enables us to gain a balanced view. We can learn from past mistakes and successes by examining history. From geography, we know about the distribution of resources and the diverse surface we inhabit. Civics encourages an informed and participatory population by educating us regarding our duties and rights as citizens. Economics explains how societies produce wealth and allocate their resources. In combination, all these social science disciplines provide a complete picture of the world. Also, social science on CBSE exams often requires interpretive and analytical skills. Apart from recalling facts, students need to be able to analyze causes and effects, compare different perspectives, and draw reasonable conclusions. Thisdevelops critical thinking and effective argumentation, two skills that are essential in academic writing, debating, and professional communication. Social science often encourages a multiple-perspective understanding and exploration of different viewpoints, unlike math, which usually has right or wrong answers. For those students who enjoy reading, analyzing, and writing, social science is an excellent subject from a marks perspective. Good marks can be achieved through the skill of writing well-structured answers with relevant examples, although this requires an in-depth understanding of the topic. Moreover, it creates a useful break from mathematics' focus on numbers, engaging a different part of the brain and presenting a comprehensive learning experience. The notion that social science and mathematics exist as distinct domains is erroneous. They complement each other in many instances. For example, statistical analysis, a mathematical skill, can significantly enhance the comprehension of economic principles in the social sciences. Trends and patterns can be identified by mathematically examining past data. However, the historical context that social science provides can sometimes provide insights into the development of specific scientific findings or mathematical concepts. A student must perform well in all subjects to achieve a high overall score. Apart from this, the skills acquired by social science (critical thinking, analytical interpretation, informed citizenship) and mathematics (logical reasoning, problem-solving) are of prime importance in progressing to postsecondary schooling. Ultimately, it is impossible to overestimate the significance of social science and mathematics in CBSE exams. They are subjects that provide students with vital information and irreplaceable abilities, not merely topics to be cleared. Students who regularly strive to understand and excel in both math and social science are not only able to achieve high scores on their CBSE examinations, but they are also establishing a solid foundation for a future filled with sound reasoning, informed choices, and a comprehensive understanding of the world around them. TIME BUSINESS NEWS