India Must Inculcate Scientific
Humanism
India
must cultivate scientific humanism to advance in the 21st century. Both India
and China, neighboring countries with large populations, faced social and
economic challenges in the past. India endured colonial exploitation, while
China experienced semi-colonial domination until its 1949 revolution.
In
recent decades, India has made significant strides in science, including the launch of ISRO's Mars mission and the development of vaccines. However, it has also
placed considerable emphasis on cultural and religious projects, such as the Ram temple and the Kumbh Mela. Meanwhile, China's emphasis on scientific humanism has
driven its rapid technological progress, with significant investments in
research and development.
To
truly progress, India must increase its investment in scientific research and
foster a national culture that prioritizes scientific temper alongside humanist
values. This balance of financial investment and cultural shift is crucial for
India's long-term growth.
What
is Scientific Humanism?
Scientific
humanism is the philosophy that combines the rigor of scientific inquiry with
the compassion and ethical grounding of humanistic values. It combines scientific
inquiry with humanistic values, like empathy, ethics, and justice. At its core,
it upholds that science should not be an isolated pursuit of knowledge or
power, but a tool to enhance human welfare, dignity, and justice.
As
MN Roy, a global thinker and revolutionary in the 20th century, put
it,
"The rise of modern science represents a
reassertion of a fundamental human trait — the spirit of inquiry. Human beings
are not passive observers of nature; action and exploration define our
existence. The evolution of science is deeply tied to the evolution of humanity
itself." [1]
Scientific
humanism promotes rationalism, critical thinking, and evidence-based
decision-making, not just for technological or economic advancement, but for
inclusive and equitable social development. It insists that science must be
guided by ethical reasoning and social responsibility.
In
today’s context, this means ensuring that scientific progress addresses public
needs, reduces inequality, and respects cultural and environmental values.
Scientific humanism advocates for a balanced, people-centered approach to
progress — where innovation serves not just profit or power, but the broader,
shared goals of human flourishing and global well-being.
Scientific
humanism and progress in China
After
1949, China had a centralized, authoritarian system under the Communist Party.
This allowed long-term planning and massive state investment in key sectors
(e.g., nuclear weapons, aerospace, education). Projects were often prioritized
regardless of short-term economic costs. Since 1978, China has focused heavily on
industrialization, exports, and technology transfer. Directed policy toward
building a manufacturing and technology powerhouse. Massive investment in STEM
education, government-funded research institutes, and sending students abroad.
R&D spending now exceeds 2.4% of GDP (as of the early 2020s). World's
2nd-largest R&D spender, leaders in AI, green energy, 5G, space (Chang’e
missions). Strong state support for AI, semiconductors, space, and biotech.
Science and technology are seen as key to national power and self-sufficiency
(e.g., Made in China 2025, military tech). High political will to challenge
U.S./Western tech dominance. used science as a tool for national pride (e.g.,
nuclear bomb in 1964, space missions).
Scientific
humanism in China has played a significant role in modern development. By
fostering a culture that prioritizes education, inquiry, and technological
progress, China has been able to align state policies with long-term scientific
goals. The inculcation of scientific temper in the public consciousness, promoted
through educational reforms and public discourse, has been instrumental in this
transformation.
The
concept of scientific humanism in China seeks to harmonize scientific progress
with humanistic considerations. Historically, this integration has been
influenced by both Western and Chinese philosophical traditions, aiming to
balance empirical inquiry with ethical and societal concerns[2].
China
has significantly increased its investment in research and development,
focusing on areas such as quantum technology, artificial intelligence,
aerospace, and biotechnology. The nation has established national laboratories,
launched ambitious space missions, and developed advanced infrastructure to
support scientific research[3].
China’s programs like the "863 Program" have been instrumental in
fostering technological innovation, leading to numerous patents and
advancements in various scientific fields
China
has actively sought international collaboration in science and technology,
engaging with over 160 countries and regions. The nation has signed numerous
intergovernmental agreements and participated in global initiatives addressing
challenges such as climate change, clean energy, and public health[4]
. Despite geopolitical tensions, China
continues to advocate for open scientific cooperation, recognizing its role in
addressing global issues and contributing to the collective advancement of
knowledge.
China
aims to become a global AI leader by 2030, with AI integrated into key sectors
like healthcare, education, and manufacturing. In January 2025, China launched
a National AI Industry Investment Fund with an initial capital of 60 billion
yuan (approximately $8.2 billion) to accelerate AI innovations[5]. has
developed extensive data centers and cloud platforms to support AI research and
applications. Chinese AI models have demonstrated performance parity with
leading global models, showcasing the country's advancements in AI research and
development[6]. Its
DeepSeek AI compares with the AI developed by the USA.
Recognizing
the importance of cultivating a scientifically literate society, China has
implemented educational reforms to strengthen science education at all levels.
The Ministry of Education has mandated that primary and secondary schools
intensify their science curricula, aiming to inspire interest and support
students' pursuit of science studies at higher education institutions[7] . These reforms are designed to foster a generation that
values scientific inquiry and understands its implications for society, thereby
promoting a culture of informed public engagement with science.
China's
scientific development is characterized by a strong state-led approach,
significant investment in research and development, and active participation in
international collaboration. The integration of scientific humanism into this
framework is an evolving process, aiming to ensure that scientific advancements
serve the public good and align with humanistic values. As China continues to
advance scientifically, the ongoing dialogue between innovation and humanism
will play a crucial role in shaping a future where science contributes
positively to society.
While
China has made significant progress in scientific and technological innovation,
the integration of humanistic values into its scientific endeavors presents
ongoing challenges. The nation's rapid development must be accompanied by
careful consideration of ethical, social, and cultural factors to ensure that
scientific advancements contribute positively to society.
The
evolving discourse on scientific humanism in China reflects a commitment to
aligning scientific progress with the broader goals of human development,
emphasizing the need for a balanced approach that considers both technological
innovation and humanistic values.
China
offers a compelling comparative model. Its rapid technological advancement has
been driven by massive state investment in research, infrastructure, and
education. The state-led push toward innovation has turned China into a global
leader in fields like artificial intelligence, green energy, and high-speed
transportation. However, critics argued that China’s model often
sidelines democratic values, human rights, and the ethical debates that should
accompany scientific progress. The result is a highly efficient but
technocratic system where the humanist dimension of science is often
overshadowed by utilitarian goals.
India,
by contrast, stands at a crossroads. While it seeks technological rise, it also
cherishes a revival of religious and cultural identity. This creates tensions.
Scientific humanism offers a bridge between these competing impulses, enabling
India to modernize without losing sight of its ethical and pluralistic
foundations.
Scientific
Temper and the Indian Ethos
Scientific
Humanism and India’s Developmental Path
India’s
post-independence vision, as shaped by leaders like Jawaharlal Nehru, strongly
emphasized the cultivation of a scientific temper—a mindset grounded in
rationality, critical thinking, and inquiry. This was enshrined in the Indian
Constitution under Article 51A(h), which urges citizens to develop a scientific
temper, humanism, and the spirit of reform. However, while India has made impressive
strides in areas like information technology, pharmaceuticals, and space
exploration, the broader societal embrace of scientific thinking remains
uneven.
Superstition,
pseudoscience, and religious dogma continue to influence public discourse and
policy, often undermining evidence-based decision-making. Despite creating
world-class institutions like the Indian Institutes of Technology (IITs) and
ISRO, India still spends only about 0.6–0.7% of its GDP on research and
development—a fraction of what’s needed to drive deep technological innovation
or achieve strategic autonomy.
India
adopted democracy at independence in 1947, making it more inclusive and
participatory than many postcolonial nations. However, social and economic
challenges, including poverty, inequality, illiteracy, and corruption, frequently
took precedence over building scientific infrastructure. Moreover, economic
liberalization began only in 1991, further delaying industrial and
technological modernization.
Despite
these constraints, India has shown remarkable scientific achievements in recent
decades. ISRO’s Mars Orbiter Mission (Mangalyaan) in 2013 and its growing space
capabilities—evident in the Gaganyaan human spaceflight programme—have earned
global recognition. Similarly, India's leadership in vaccine development and
production, particularly during the COVID-19 pandemic, highlighted its growing
role in global health and biotech sectors.
In
the realm of artificial intelligence, the Indian government launched the
₹10,000 crore IndiaAI Mission in 2024 to build a national computing
infrastructure and foster ethical AI development[8].
States like Odisha have introduced AI education in schools, while companies
such as TCS, Infosys, and Wipro are investing in AI solutions, helping build a
robust technological ecosystem.
Yet,
alongside these scientific gains, a strong resurgence of cultural and religious
identity has also shaped India’s public sphere. Projects like the Ram Temple in
Ayodhya and the organization of the Kumbh Mela—while fostering national pride
and cultural continuity—reflect a growing emphasis on spiritual heritage. The
resurgence of cultural nationalism has diverted attention and resources from
scientific research and rational inquiry. This dual focus raises important
questions: Can India balance its scientific ambitions with its cultural
revivalism? And how can both coexist without undermining each other?
The
risk lies in allowing cultural nationalism to overshadow the pursuit of
scientific humanism. While cultural pride has its place, when it diverts
attention and resources from rational inquiry and evidence-based policy, it
hampers inclusive development. Public discourse, education, and national
priorities must be realigned to ensure that science and critical thinking are
not sidelined by ideology or dogma
Despite
the constitutional mandate, India has yet to fully internalize the ideals of
scientific humanism—a philosophy that combines scientific inquiry with
humanistic values like empathy, justice, and equity. Scientific temper must go
beyond laboratory achievements; it must be embedded in everyday life,
governance, and education.
Moving
forward, India must do more than celebrate its scientific milestones. It must
foster a culture of curiosity and skepticism at the grassroots level. This
includes revamping education to prioritize inquiry over rote learning,
promoting public engagement with science through accessible media, and building
institutions that uphold reason and transparency.
Crucially,
science must be guided by humanist values. Without empathy, social
responsibility, and ethical grounding, scientific progress risks becoming
exclusive, exploitative, or misdirected. For India to truly thrive in the 21st
century, it must embrace a development model rooted in scientific humanism—where
knowledge serves humanity, and rationality is paired with compassion.
The
Difference
India
and China, the two most populous nations in the world, have experienced
contrasting historical trajectories and have adopted different developmental
priorities in the post-colonial era. While both countries have made significant
advancements in the early 21st century, particularly in science
and technology, their strategies and societal orientations toward scientific
inquiry diverge.
India
developed scientifically, but China’s scale, planning, and investment in
science and technology have been more aggressive and state-directed. China has
strong and clear strategic plans in terms of scientific development. India is
yet to take steps to focus on scientific development. China has taken a centralized and sustained approach to scientific development. It has invested
heavily in research and innovation across multiple domains, including
artificial intelligence, quantum computing, biotechnology, and space
exploration. This strategic focus is underpinned by a broad societal
endorsement of scientific progress and the institutional promotion of
scientific humanism, a worldview that emphasizes rational inquiry, human
welfare, and empirical evidence as foundations for social advancement.
China's
scientific development is characterized by a robust state-driven approach emphasizing innovation, technological advancement, and international
collaboration. China's AI development is characterized by significant
investments and infrastructure. In contrast, India is building its AI ecosystem
through strategic initiatives, educational reforms, and private sector
involvement. While the nation has made
significant strides in various scientific domains, the integration of
humanistic values into its scientific endeavors—often referred to as
"scientific humanism"—remains an evolving aspect of its development
trajectory.
China's
leadership has articulated a clear vision for scientific advancement,
underscoring its importance for national prosperity and global standing.
President Xi Jinping has emphasized the need for close integration between
science, technology, and the economy, advocating for deep collaboration among
industry, universities, and research institutions to drive innovation[9]. The
"Scientific Outlook on Development," introduced by former President
Hu Jintao, encapsulates a socio-economic principle that integrates scientific
socialism with sustainable development, social welfare, and a humanistic society.
It aims to balance economic growth with the well-being of the populace,
emphasizing human-centered development.
Scientific
Humanism and India’s Development: Balancing Innovation with Morality
India
needs to inculcate the spirit of scientific humanism. This is a philosophy that
blends rational inquiry with empathy and ethics, advocating for science as a
tool to uplift humanity rather than as an end in itself. In India, this
approach is essential—not only to sustain innovation but to ensure that
progress benefits all, not just a privileged few. As Roy argued,
“Religion is bound to be liquidated by science,
because scientific knowledge enables mankind to answer questions, confronted by
which in its childhood it was compelled to assume supernatural forces or
agencies.”[10]
Embedding
the philosophy of scientific humanism into its developmental model is crucial
not only for sustaining innovation but also for ensuring that such progress
uplifts society at large.
Despite
constitutional commitments to foster scientific temper, India faces serious
challenges: low R&D spending (~0.7% of GDP), weak integration of science
with policymaking, rote-based science education lacking ethical or humanistic
grounding, and widespread pseudoscientific beliefs. Religious dogma and
mythologizing of history often distort public understanding, while scientific
gains remain concentrated in urban elite spaces, leaving rural and marginalized
communities behind.
To
embed scientific humanism into national development, India must reform science
education to include critical thinking, ethics, and societal relevance; invest
in public science communication; and integrate social impact assessments into
all major tech projects. A proposed National Scientific Humanism Mission
(NSHM) could coordinate cross-sector efforts, establish interdisciplinary
advisory boards, and align innovation with public good.
Public
engagement should be expanded through vernacular media, “Village Science
Fellows,” and support for grassroots innovators, especially women, Dalits, and
Adivasis. Institutional ethics boards should be mandatory across emerging
fields like AI and biotech, and national frameworks must ensure that
technological growth remains equitable, inclusive, and sustainable. India
should also position itself globally as a champion of ethical science rooted in
values like Ahimsa and Sarvodaya. With the right policy framework and cultural
commitment, India can lead not only in innovation but in making science a force
for justice, dignity, and human flourishing.
The
Path Ahead: Policy, Investment, and Cultural Change
For
scientific humanism to take root in India, action is needed on multiple fronts.
First, there must be greater investment in research and development. Second, scientific
training must begin at the foundational level, with curricula designed to
foster creativity, experimentation, and ethical reasoning. Third, public
science communication must be improved to combat misinformation and encourage
critical thinking in everyday life.
Additionally,
scientists and technologists must be encouraged to engage with broader social
and ethical questions. Whether it's AI, genetic engineering, or climate
innovation, science cannot operate in a vacuum. Ethical foresight, public
deliberation, and a commitment to human dignity must shape how these
technologies are developed and deployed.
India
stands at a defining moment in its development journey. Its achievements in
space and technology show the heights it can reach. But to sustain and deepen
this progress, India must go beyond mere technical prowess and embrace scientific
humanism as a guiding philosophy. This means coupling investment in science
with a cultural shift toward rationality, empathy, and ethical responsibility.
Only then can India build a future that not only advances human knowledge but
also affirms human dignity.
For
India to fully realize its scientific and developmental potential, it must not
only invest more substantially in research and innovation but also cultivate a
widespread commitment to scientific humanism. This involves reorienting public
discourse, reforming education, and supporting institutions that champion
reason, evidence-based thinking, and critical inquiry. Balancing cultural pride
with a future-oriented scientific vision is essential for sustainable and
inclusive national progress.
China’s
example demonstrates how a coherent alignment of policy, public education, and
cultural values can drive transformative change. If India seeks to compete on
the global scientific stage and address its developmental challenges, fostering
a culture rooted in scientific temper is not merely desirable—it is imperative.
[1]
Roy MN (1947) Science and Society, Indian Renaissance Institute, Calcutta p. 10
[10]
Roy MN (1947) Science and
Society, Indian Renaissance Publishers, Calcutta p 9
Labels: ethics, innovation, morality, research and development, scientific humanism, scientific temper
