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Laura Bassi

Laura Maria Caterina Bassi (31 October 1711 – 20 February 1778) was an Italian physicist and natural philosopher who earned a doctorate from the University of Bologna in 1732, becoming the second woman in Europe to receive such a degree in philosophy and marking her as one of the earliest female academics in scientific fields.^[1]
Appointed as a reader in philosophy at Bologna shortly after her doctorate and admitted as the first female member of the Bologna Academy of Sciences in 1732, Bassi advocated for Newtonian mechanics in Italy, delivering public lectures and authoring around 28 papers primarily on physics and hydraulics.^[1]
In 1776, she received the world's first chair in experimental physics at a university, though her formal university teaching remained limited, with most instruction and experimental work, including studies in electricity, occurring privately in her home after her 1738 marriage to fellow lecturer Giuseppe Veratti, with whom she had nine children.^[1]
Bassi's career highlighted the constraints on women in 18th-century academia, as her public role served partly to promote Enlightenment ideas in Bologna, yet her original contributions advanced the application of calculus to mechanics and helped acclimatize Newtonian natural philosophy amid prevailing Cartesian influences.^[1]

Early Life and Education

Family and Upbringing

Laura Bassi was born on 31 October 1711 in Bologna, then part of the Papal States, to Giuseppe Bassi, a prosperous lawyer, and his wife Maria Rosa Cesari.^[1]^[2] Both parents originated from Scandiano, a town in the province of Reggio Emilia, though little is documented about her mother's background or early life.^[1] Bassi was the only child of the family to survive into adulthood, indicating possible infant mortality among siblings, though specific details on this are scarce in contemporary records.^[3] Her family belonged to the upper middle class, benefiting from her father's legal profession, which provided financial stability and social connections without aristocratic status.^[4] Giuseppe Bassi actively supported his daughter's intellectual development, arranging for her home-based education rather than formal institutional schooling, which was uncommon for girls of the era.^[5] This upbringing in a literate household exposed her early to languages, including Latin, and foundational subjects, fostering her prodigious talents under private tutelage starting around age five.^[4]^[5]

Intellectual Formation and Mentors

Laura Bassi began her education at the age of five in 1716, receiving private instruction from her cousin, Father Lorenzo Stegani, who taught her Latin, French, and arithmetic until she reached thirteen in 1724.^[1] This foundational phase emphasized classical languages and basic mathematics, reflecting the scholarly environment of her father's household in Bologna, where she was exposed to books on philosophy and science.^[1] In 1724, her father employed Gaetano Tacconi, a professor at the College of Medicine and the family physician, as her primary tutor until she was twenty in 1731. Tacconi guided her through an extensive curriculum including anatomy, natural history, logic, metaphysics, philosophy, chemistry, hydraulics, mechanics, algebra, geometry, ancient Greek, and advanced scientific texts such as Isaac Newton's Optics, which she studied in the original English.^[1]^[6] Under Tacconi, Bassi engaged with Aristotelian, Galilean, and Cartesian physics, developing a rigorous grounding in both traditional and emerging scientific paradigms.^[6]^[7] Following Tacconi's tutelage, Bassi advanced her studies with mentors from Bologna's academic circles, including mathematician Gabriele Manfredi, who instructed her in higher mathematics, calculus, and Newtonian physics, and Iacopo Bartolomeo Beccari, who introduced her to experimental methods in physics and chemistry.^[1]^[7]^[6] Prospero Lambertini, then Archbishop of Bologna and later Pope Benedict XIV, served as an influential patron from 1731, recognizing her prodigious talent and facilitating her integration into the University of Bologna's intellectual community through examinations by academy professors.^[1] These relationships honed her expertise in Newtonian mechanics, positioning her to challenge prevailing Cartesian influences in Italian science and prepare for her public defense in 1732.^[6]^[7]

Academic Rise and Recognition

Public Thesis Defense and Doctorate

On April 17, 1732, at the age of 20, Laura Bassi publicly defended 49 theses in philosophy (Philosophica Studia) before professors of the University of Bologna in the Sala degli Anziani of the Palazzo Pubblico, Bologna's town hall.^[1] The event, arranged by her patron Cardinal Prospero Lambertini (later Pope Benedict XIV), drew a large audience and featured debates with university examiners on topics spanning metaphysics, logic, and natural philosophy.^[4]^[8] Bassi's performance demonstrated her command of Aristotelian and emerging Newtonian principles, marking a rare public academic showcase for a woman in 18th-century Italy.^[9] The defense was not a modern dissertation but a series of propositions defended orally against challengers, aligning with Bologna's tradition of disputatio for doctoral qualification.^[9] Successful completion led to her conferral of the Doctor of Philosophy degree (Dottore in Filosofia) on May 12, 1732, making her the second woman known to receive a university doctorate after Elena Cornaro Piscopia in 1678, and the first in a scientific field.^[10]^[1] This achievement, amid Bologna's relatively progressive statutes allowing female enrollment since the 12th century, elevated her status and paved the way for subsequent honors, including an additional defense of 12 theses at the Archiginnasio on June 27, 1732.

Appointment to Honorary Professorship

In December 1732, following her public doctoral defense earlier that year, the Senate of the University of Bologna unanimously approved Laura Bassi's appointment to the chair of universal philosophy, making her the first woman in Europe to hold a university professorship.^[7]^[11] This honorific position, often described as largely ceremonial due to restrictions on women's academic participation, entitled her to an annual stipend but limited her teaching duties to occasional public lectures, typically no more than two per year.^[12]^[13] The appointment stemmed from Bassi's demonstrated erudition in her April 17, 1732, defense of 49 theses before university faculty and city officials, which had already earned her widespread acclaim in Bologna.^[7] Key patrons, including Archbishop Prospero Lambertini (later Pope Benedict XIV), advocated for her recognition, viewing her talents as a symbol of the city's intellectual prestige amid Enlightenment-era debates on learning and gender.^[13] Despite the honorary nature—reflecting institutional caution rather than doubt of her abilities—Bassi actively engaged the role by delivering lectures on topics like Newtonian mechanics, thereby influencing local scientific discourse while navigating societal barriers to full academic integration.^[12]^[11] This early honor laid groundwork for Bassi's career, distinguishing her from predecessors like Elena Cornaro Piscopia, whose 1678 degree had not led to teaching privileges, and underscoring Bologna's relatively progressive stance under papal influence.^[13] The position's limitations, however, prompted Bassi to seek expanded opportunities through private instruction and academy memberships, compensating for the curtailed public lecturing.^[12]

Scientific Work and Contributions

Advocacy for Newtonian Physics

Laura Bassi championed Newtonian physics in Italy, where Cartesian vortices and Aristotelian qualities predominated in academic discourse, by emphasizing mathematical rigor and experimentation over speculative hypotheses. During her public doctoral defense on April 17, 1732, in Bologna's Palazzo Publico, she presented and vigorously defended multiple theses incorporating Newtonian concepts, including those on light refraction and mechanical motion, which highlighted empirical validation drawn from Newton's Opticks and Principia Mathematica.^[11] This event, attended by civic and ecclesiastical authorities, marked an early public assertion of Newtonianism against entrenched rivals, earning her acclaim as a prodigy versed in modern natural philosophy.^[13] As honorary professor of physics from 1732, Bassi delivered annual public lectures on experimental Newtonian topics, such as prism demonstrations of color dispersion, conducted in her home laboratory on Via Guardasoni.^[6] These twice-yearly sessions, limited by university restrictions but widely attended, served to instruct students and intellectuals in gravitational laws and fluid dynamics as outlined in Newton's works, fostering a gradual acceptance of hypothesis-free mechanics.^[14] Her teaching extended to private advanced courses from the 1740s onward, where she dissected Principia's principles, positioning Bologna as a hub for Newtonian education amid resistance from traditionalists.^[11] Bassi's advocacy extended beyond lectures through intellectual exchanges and debates, including correspondence with European savants, which reinforced Newtonian experimentalism's superiority for explaining phenomena like planetary motion and optics.^[14] By the mid-18th century, her efforts contributed to Newtonian physics supplanting Cartesianism in Italian universities, as evidenced by student preferences for her courses over outdated alternatives and her role in institutional reforms under papal patronage.^[4] This shift aligned with broader Enlightenment trends, yet Bassi's personal demonstrations and pedagogical innovations were instrumental in Italy's specific transition, solidifying her legacy as a pivotal disseminator of empirical science.^[15]

Experimental Investigations

Bassi's experimental investigations centered on Newtonian mechanics and emerging fields like electricity, conducted largely in her private home laboratory on Via Barberia in Bologna, which she equipped with advanced instruments for demonstrations and research. From 1749, she operated a "domestic school" offering daily practical lessons, where students engaged in hands-on experiments to explore physical principles, supplementing her limited university teaching privileges. These sessions emphasized empirical validation of theories, aligning with Enlightenment ideals of observation and experimentation over speculative philosophy.^[6] In optics and mechanics, Bassi replicated and extended Newtonian demonstrations, such as prism experiments on light refraction observed by visitors like John Morgan in 1764, using setups that illustrated dispersion and color formation. She also probed classical problems in mathematical physics, including air composition and hydrometry, publishing findings on exceptions to Boyle's law and mechanical phenomena that challenged prevailing hydrostatic assumptions. Her 1745 treatise on rarified air pressure exemplified early empirical scrutiny of pneumatic principles, drawing on controlled setups to measure deviations under varying conditions. These works underscored her commitment to quantitative analysis, often integrating mathematical modeling with apparatus-based verification.^[6] From the 1760s onward, Bassi shifted focus to electricity, collaborating closely with her husband, Giuseppe Veratti, a physician and anatomist, in joint experiments that examined electrical fluids, attraction, and repulsion. Supporting Benjamin Franklin's one-fluid theory, they conducted trials with Leyden jars and frictional generators to test conductivity and discharge effects, including potential medicinal applications like electrotherapy for ailments. This research elevated Bologna as a European center for electrical studies, attracting figures such as Jean-Antoine Nollet and influencing contemporaries like Luigi Galvani on bioelectricity. Their methodical approach involved systematic variation of variables—such as material types and environmental factors—to isolate causal mechanisms, yielding unpublished treatises and public debates that advanced causal understanding of electrostatic forces.^[6]^[16]^[12] Bassi's appointment as the first Chair of Experimental Physics at the Bologna Institute of Sciences and Arts in 1776 formalized her role, granting resources for institutional demonstrations while her home lab remained the primary site for innovative work until her death. Her investigations prioritized replicable protocols and instrumental precision, fostering a legacy of empirical rigor in Italian physics amid resistance to Newtonian paradigms.^[6]

Key Publications and Intellectual Exchanges

Bassi's publications were limited in number and scope, reflecting institutional constraints on female scholars, yet they demonstrated her commitment to experimental Newtonian physics. Her earliest documented work, published in 1732, examined the properties of water, marking her initial foray into hydraulics. Between 1746 and 1777, she contributed 28 papers to the Commentarii of the Istituto delle Scienze in Bologna, primarily on topics in physics, mechanics, and fluid dynamics, often co-authored with her husband Giuseppe Veratti; these emphasized empirical investigations over theoretical speculation. Only four of these appeared in outlets beyond Bologna, underscoring her localized influence despite European recognition.^[17]^[4]^[18] Intellectual exchanges formed a cornerstone of Bassi's career, compensating for restricted public lecturing. She corresponded extensively with Enlightenment figures promoting Newtonianism, including Voltaire, who lauded her as a defender of experimental methods against Cartesian holdovers in Italy. With French physicist Jean-Antoine Nollet, her letters from the 1740s onward addressed electrical conduction and apparatus design, facilitating the adoption of advanced instrumentation in Bologna. Similar exchanges with Turin-based Giovanni Battista Beccaria focused on atmospheric electricity and pneumatic experiments, influencing her later private demonstrations. These networks, documented in archival letters, positioned Bassi as a conduit for transalpine scientific ideas, while her home salon hosted visiting scholars for collaborative trials in mechanics and hydraulics, often involving Veratti.^[19]^[20]

Personal Life

Marriage and Family Responsibilities

In 1738, Laura Bassi married Giuseppe Veratti, a physician and lecturer in anatomy and natural philosophy at the University of Bologna, in a ceremony held on February 7 at the Basilica San Petronio.^[1]^[21] Veratti, who had graduated in medicine and natural philosophy in 1734, supported Bassi's scientific pursuits, collaborating with her on experiments and providing equipment for her home-based demonstrations; their union facilitated her access to male-dominated academic gatherings and formed the basis of a joint research partnership.^[1]^[12] The couple had between nine and twelve children, of whom five survived to adulthood—four sons (Ciro, Paolo, Giovanni Francesco, and Giacomo) and one daughter (Caterina).^[1]^[4] High infant mortality was common in 18th-century Europe, yet Bassi managed these losses alongside child-rearing amid her professional commitments.^[22] Bassi integrated family responsibilities with her career by conducting most lectures and experiments from her Bologna residence, which doubled as a well-equipped private laboratory hosting scholars and demonstrations on topics like electricity and hydraulics.^[1]^[12] This arrangement, bolstered by Veratti's assistance in both domestic and scientific matters, allowed her to divide time between raising children and academic work without formal university teaching duties until later in life; by the 1760s, their home served as a hub for collaborative research on electrical phenomena, with Veratti handling some practical aspects.^[21]^[12] Such domestic integration underscored her ability to sustain productivity—evidenced by ongoing publications and institutional roles—despite the demands of a large household.^[23]

Integration of Domestic and Professional Roles

Laura Bassi married Giuseppe Veratti, a physician and fellow scholar, on October 26, 1738, in a union that facilitated her continued engagement in scientific pursuits by providing intellectual companionship and practical support.^[1] Veratti assisted her in experiments and later served as her teaching collaborator, enabling joint work on topics such as electricity while sharing household responsibilities.^[4] Their partnership extended to establishing a home laboratory in Bologna, where Bassi conducted investigations amid family life, integrating experimental apparatus like prisms and Leiden jars into domestic spaces.^[9] The couple had eight children, of whom five survived to adulthood, with Bassi managing maternal duties alongside her academic obligations during a period when such dual roles posed significant challenges for women scholars.^[24] Despite these demands, she maintained her teaching at the University of Bologna and private lectures, often adapting schedules to accommodate family needs while leveraging Veratti's involvement to sustain productivity.^[25] This arrangement reflected pragmatic adaptation rather than institutional accommodations, as Bassi negotiated permissions for home-based demonstrations to reconcile her professorial role with motherhood.^[1] Bassi's ability to balance these spheres was bolstered by her family's affluent status, which likely afforded domestic assistance, though primary sources emphasize her personal resilience and Veratti's collaborative role over external aid.^[4] Her correspondence and institutional records indicate no cessation of scholarly output post-marriage, with continued advocacy for women's access to scientific venues, underscoring a deliberate fusion of private and public identities uncommon for the era.^[14] This integration not only preserved her career trajectory but also modeled familial support for intellectual endeavor, influencing subsequent perceptions of women's scientific potential.^[9]

Later Career Developments

Transition to Full Professorship

Despite her honorary appointment as professor of philosophy in 1732, which required only twelve annual public lectures and offered no regular salary, Laura Bassi sought greater institutional integration and compensation throughout her career.^[1] She supplemented her income through private instruction at home, receiving a modest stipend from the Bolognese Senate starting in 1745 for these lessons, but this arrangement limited her access to university facilities and formal recognition as a primary faculty member.^[7] Her persistent experimental demonstrations, advocacy for Newtonian mechanics, and collaborations with figures like Giuseppe Veratti underscored her qualifications for a more substantive role.^[1] Bassi's transition culminated in a series of formal public disputations to affirm her expertise. Having already defended theses in earlier years, she undertook a third disputation in the mid-1770s, addressing advanced topics in physics and philosophy before university examiners.^[3] This rigorous evaluation, combined with her established reputation through publications and academy memberships, addressed lingering skepticism about women's capacities in empirical science within Bologna's academic circles.^[26] In 1776, at age 65, the Bolognese Senate appointed Bassi to the full chair of experimental physics at the Istituto delle Scienze, an affiliated scientific institute of the University of Bologna, marking the first such salaried position for a woman in physics at a European university.^[7]^[24] Veratti, her husband and a physician-lecturer, was designated as her assistant, facilitating joint laboratory work while formalizing her leadership.^[1] This elevation provided access to dedicated resources for electricity and hydraulics research, affirming her long-term contributions amid Enlightenment-era barriers to female advancement.^[26]

Advanced Research in Electricity

In 1776, Bassi received a full professorship in experimental physics at the University of Bologna, with her duties centered exclusively on electricity, conducting lectures and demonstrations only on Saturdays.^[1] This appointment formalized her shift toward intensive study of electrical phenomena, leveraging a well-equipped private laboratory in her home that included advanced electrostatic generators, such as a multi-globe electrical machine acquired around 1749 and refined over subsequent decades.^[27] Alongside her husband, Giuseppe Veratti—a physician with interests in physiological applications—Bassi replicated key experiments from Benjamin Franklin, including those on electrical conduction and atmospheric electricity, while exploring therapeutic uses like treating ailments through controlled shocks.^[28] Their joint efforts positioned Bologna as a hub for electrical investigation, drawing European experts such as Jean-Antoine Nollet, who visited to exchange techniques and debate fluid theories of electricity.^[14] Bassi's research emphasized empirical demonstration over theoretical speculation, aligning with Newtonian principles she had long advocated; she devised original apparatuses to measure spark discharge and insulation effects, though no formal publications emerged from this phase, likely due to her focus on private experimentation and instruction.^[29] Veratti complemented her work by probing "animal electricity," linking electrical stimulation to muscle contraction in physiological models, which anticipated later galvanic studies.^[6] These investigations, conducted amid Bologna's Enlightenment intellectual networks, advanced practical understanding of electrostatics, including air bubble formation in charged fluids—a phenomenon debated in contemporary electrical treatises—but remained grounded in replicable trials rather than unsubstantiated hypotheses.^[27] By prioritizing hands-on validation, Bassi's electricity research underscored causal mechanisms in charge transfer and discharge, contributing to the era's transition from speculative to applied electrodynamics, even as institutional constraints limited her output to oral and demonstrative formats.^[12] Her home-based setup, integrating family resources with scientific pursuit, facilitated over a decade of sustained inquiry from the 1760s onward, culminating in the professorial role that amplified its visibility until her death in 1778.^[30]

Death and Contemporaneous Honors

Final Years and Passing

In 1776, Bassi received her most significant academic recognition when she was appointed to the Chair of Experimental Physics at the University of Bologna, becoming the first woman worldwide to hold such a position.^[1] This appointment followed persistent advocacy and came after the death of the previous holder, with her husband Giuseppe Veratti relinquishing related duties in support.^[1] During these final years, Bassi sustained her commitment to experimental physics, maintaining a well-equipped home laboratory where she and Veratti explored electricity's medical applications, though no formal publications emerged from this work.^[1] She also continued delivering private physics lectures at her residence daily for eight months annually, attracting educated locals and international scholars.^[1] Bassi's death occurred suddenly on 20 February 1778 in Bologna, at age 66, from what contemporaries termed an "attack in the chest," potentially a heart attack or related cardiac event.^[1] She was interred in the Church of Corpus Domini, with silver laurels placed on her head during the procession led by members of the Benedettina Academy.^[1]

Awards and Institutional Affiliations

In 1732, Bassi received her university teaching qualification in June and was granted an honorary appointment as professor of natural philosophy at the University of Bologna in October, marking her as the first woman to hold a university professorship in Europe; she delivered her inaugural public lecture at the Archiginnasio in December of that year.^[7] This position initially carried no salary but included an annual award of 500 lire from the Bolognese Senate.^[7] In 1776, she was appointed to the full chair of experimental physics at the University of Bologna's Istituto delle Scienze, with associated laboratory facilities.^[1] Bassi's institutional affiliations extended to key scientific bodies in Bologna. On March 20, 1732, she became the first woman admitted as an honorary member of the Bologna Academy of Sciences, a prestigious institute founded in 1714.^[7] In April 1732, she was also named an honorary member of the College of Philosophers.^[7] By 1745, she had advanced to full membership in the academy's Benedettini class as its sole female member, though without voting rights.^[24] The Senate increased Bassi's annual stipend multiple times after 1749, reflecting her rising prominence and contributions to experimental demonstrations, though these adjustments fell short of a standard professorial salary.^[7] Her affiliations underscored Bologna's relatively progressive academic environment under papal influence, enabling her sustained involvement in Newtonian physics and hydraulics despite gender barriers elsewhere in Europe.^[1]

Legacy and Critical Assessment

Impact on Enlightenment Science in Italy

Laura Bassi played a pivotal role in advancing Newtonian physics within Italy during the 18th century by delivering lectures at the University of Bologna that emphasized empirical methods and Isaac Newton's principles, thereby countering lingering Cartesian influences in Italian academia.^[1] Her courses, which drew directly from Newton's Principia and Opticks, served as a primary vehicle for students to engage with modern mechanics and optics, marking her as a key disseminator of these ideas in a region where experimental philosophy was still gaining traction.^[11] Through this pedagogical focus, Bassi contributed to the broader Enlightenment shift toward observation-based inquiry, influencing subsequent generations of Italian scholars to prioritize verifiable experimentation over speculative metaphysics.^[1] As the first woman elected to the Bologna Academy of Sciences in 1745, Bassi leveraged her position to foster scientific exchange, presenting treatises on topics including hydraulics, pneumatics, and fluid dynamics that aligned with Newtonian frameworks. Her authorship of approximately 28 scholarly papers, predominantly in physics, further amplified these concepts across Italian intellectual networks, where she negotiated patronage to secure resources for research and dissemination.^[1] This involvement in academies not only elevated experimental physics but also integrated Italy into European scientific dialogues, as Bassi's correspondence and publications bridged local traditions with northern European advancements.^[11] In the 1740s and later, Bassi established a private experimental academy in her Bologna home, hosting twice-weekly sessions from around 1738 that emphasized hands-on demonstrations in mechanics, optics, and emerging fields like electricity.^[8] Collaborating with her husband Giuseppe Veratti, she conducted pioneering investigations into electrical phenomena during the 1760s, exploring applications such as medical therapies, which prefigured later developments in bioelectricity and underscored the practical utility of Enlightenment empiricism.^[1] These domestic experiments, equipped with advanced apparatus, cultivated a culture of collaborative inquiry among Italian savants, directly contributing to the institutionalization of experimental science in Bologna's Institute of Sciences and reinforcing causal mechanisms derived from Newtonian laws over dogmatic alternatives.^[31]

Historiographical Debates and Modern Reappraisals

Early historiography often depicted Laura Bassi as a symbolic figurehead, appointed to a largely honorary chair in philosophy at the University of Bologna in 1732 primarily to enhance the city's prestige amid competition with other Italian states, with her public teaching limited to a single annual lesson.^[13] This view emphasized her exceptionalism as the first woman to earn a salaried university position in Europe while questioning the substantive nature of her influence, attributing her success more to patronage from figures like Pope Benedict XIV than to rigorous scientific output.^[13] Modern reappraisals, particularly in works by Paula Findlen, challenge this tokenistic interpretation by highlighting Bassi's strategic career-building through experimental physics, including over 30 published treatises on topics like Newtonian mechanics, hydraulics, and electricity, conducted largely in her private home laboratory after her 1748 marriage.^[13] Scholars argue she actively shaped Enlightenment science in Italy by fostering Newtonian adoption and institutional networks, while integrating domestic responsibilities—bearing 12 children, eight of whom survived infancy—with professional pursuits, thus modeling a pragmatic adaptation to gendered constraints rather than outright rebellion.^[13] ^[32] Debates persist over anachronistic feminist projections onto Bassi, with commemorations like the 2019 Google Doodle portraying her as a proto-advocate for gender equality, despite archival evidence showing no expressed solidarity with contemporary female scholars such as Cristina Roccati or efforts to expand opportunities for women beyond her own case.^[9] Critics contend such narratives prioritize inspirational symbolism over causal analysis of her Catholic, patriarchal context, where her achievements stemmed from individual negotiation rather than collective activism, potentially obscuring the era's structural barriers to women's scientific participation.^[9] Over 70 biographical accounts, analyzed in gender and genre studies, reflect this tension, evolving from 18th-century hagiographies blending intellect with domestic virtue to 20th- and 21st-century emphases on her agency amid institutional biases.^[32]

References

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Sep 3, 2019 · Her father was a lawyer; he was neither aristocratic nor rich but somewhat well-connected. Bassi was educated at home, where she learned Latin, ...
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Jan 8, 2023 · The Italian physicist and philosopher was the first woman to earn a doctorate in science and the first salaried female professor at a university.
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Laura Bassi (born October 31, 1711, Bologna, Italy and died February 20, 1778,. Bologna) was an Italian scientist who was the first woman to become a physics ...Missing: achievements primary sources
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Laura Bassi as a Petrarchan muse, 1732. ... 2 (1741-1750), A-B; and Camillo Grossi, ed., Maria Gaetana. Agnesi da Milano Professoressa Onoraria di Matematiche all ...<|separator|>
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(PDF) Laura Bassi and Giuseppe Veratti: an electric couple during ...
... Newtonian physics to the study si-Veratti couple. This was not only unusual but almost incon- of organisms. By the end of the century, the most famous ...
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[PDF] Women in Physics and Their Scientific Contributions
Laura Bassi, an experimental physicist, was the first female college instructor of any kind in Europe! • She was also the second woman ever to receive a ...
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Laura Bassi and Giuseppe Veratti: an electric couple during the ...
As a couple and independently, they carried out experimental research in the field of electricity, even setting up research facilities within their own home.
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View of Laura Bassi and Giuseppe Veratti: an electric couple during ...
Nov 25, 2009 · Machines producing electrostatic electricity were scattered over Italy, and lectures on electricity attracted mem-bers of academia as well ...
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Sep 11, 2021 · Students will be immersed in the state-of-the-art lab of Laura Bassi, an 18th century experimental physicist. They will learn about Bassi and perform simple ...
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The Biographies of Laura Bassi in Writing about Lives in Science ...
This paper examines the biographical representation of Laura Bassi, an 18th-century female philosopher and a pioneering figure in experimental physics at ...