More than five centuries after his death, Leonardo da Vinci’s legacy lives on in creations such as the Mona Lisa and the Last Supper – two of the most recognisable works of art in existence. As well as being a talented painter, however, Leonardo was also a skilled scientist and engineer with an incredible range of interests. In this comprehensive guide to Leonardo da Vinci, art historian Maya Corry explores eight of the most important chapters in Leonardo’s professional life – from his boyhood apprenticeship in Florence to his final years as a fêted figure in the court of the king of France. Also, Marina Wallace explores seven of Leonardo da Vinci's most forward-thinking ideas and inventions – from the telescope to the flying machine…

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A statue of Leonardo da Vinci
A statue of Leonardo da Vinci, the great painter, sculptor, architect, anatomist and engineer. (Image by Godong/Universal Images Group via Getty Images)

Leonardo da Vinci: a brief biography

Leonardo da Vinci was born in Vinci, Tuscany in 1452, the illegitimate son of a Florentine notary and a young peasant. Little is known of his childhood, but his artistic talent must have been apparent at an early age for, at 14, he was apprenticed to one of the most well-known Florentine workshops of the day: that of painter and sculptor Andrea del Verrocchio.

In 1482, now an artist in his own right, da Vinci moved from Florence to Milan in search of new work. There, he began working as a military engineer for Ludovico Sforza, future Duke of Milan, designing many of his famous war inventions. It was also during his time in the city that da Vinci created one of his most famous works, The Last Supper.

Da Vinci spent 17 years in Milan, painting, sculpting and recording new inventions and scientific and anatomical observations in a series of notebooks. But in 1499, the French invasion of the city brought his employment with Sforza to an end and da Vinci spent several years travelling around Italy working on a variety of projects. Among these was the Mona Lisa, a painting believed to have been started in 1503, and The Virgin and Child with St Anne (1510).

Da Vinci spent his final years at the Château du Clos Lucé in Amboise, France, in the employment of the French king, Francis I. He died there, on 2 May 1519, at the age of 67.

After his death, da Vinci’s unpublished manuscripts, full of ideas and observations, were first neglected and later dispersed, with many pages disappearing forever. But in the 20th century, scholars and restorers began to recover and interpret what texts survived. Thanks to them, we can now appreciate the activity of one of the most extraordinary minds the world has ever known.

Da Vinci’s inquiring mind and relentless search for answers saw him make groundbreaking discoveries in engineering, science, anatomy and industry, often centuries before these ideas became widely accepted and put into practice.


Leonardo da Vinci’s rise to success: a timeline

What were the turning points in Leonardo da Vinci's long career? Art historian Maya Corry explores…

1

Leonardo moves to Florence – and an artist’s workshop

Around 1464, the young Leonardo went to Florence to live with his father. Although he did not have the full advantages of those born in wedlock, his illegitimacy was not a serious hindrance. While the church stridently condemned sex outside marriage, the realities of life, love and lust meant that many children were the result of such unions. Leonardo was welcomed into his father’s home, and Ser Piero provided for him just as he did for his legitimate offspring. The boy would have received a basic education, being taught to read, write and do sums.

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At 12 years old, Leonardo reached the age when boys of his status started to learn a profession, but due to his illegitimacy he could not follow his father and become a notary. His artistic talent was perhaps already apparent by this time, for Ser Piero arranged for him to be apprenticed to the Florentine artist Andrea del Verrocchio. Apprenticeships lasted around six years and were often formalised with a contract. These listed the responsibilities of the master: to keep the lad fed, housed, clean and well-dressed, and to teach him all the skills necessary to succeed in his line of work. In return, the child promised to be diligent, honest and – in a sign of the unhappiness endured by some apprentices – not to run away.

An engraving depicting a master and his apprentices carrying out their duties in a busy artist's workshop
A Flemish engraving dating from the 16th century depicting a master and his apprentices carrying out their duties in a busy artist's workshop. (Image by Alamy)

Verrocchio was a prosperous painter and sculptor. He ran a busy workshop, a space for both living and working, in which he trained apprentices and employed assistants to help him produce the many works of art that his patrons commissioned. Initially, Leonardo would have risen early to light the fire, grind the pigments to make paint, prime panels and prepare all the materials needed for the day’s work. In time, he would have graduated to more skilled and important jobs, learning all that he needed to know along the way.

2

The apprentice blossoms into artistic maturity

Throughout the next years, Leonardo continued to work closely with Verrocchio, and by 1473 had likely graduated to the position of a paid collaborator. Successful Renaissance artists commonly employed assistants to help them complete large commissions, with several people often working on a single painting. Contracts sometimes specified how much of a picture was to be by the master’s own hand – the greater the proportion, the more expensive it was. He tended to be responsible for the most important parts, such as faces and main figures, with patrons happy to leave background details to assistants.

Verrocchio depended on this kind of arrangement to produce his Baptism of Christ altarpiece, on which at least three different artists worked. Giorgio Vasari, the great 16th-century writer on art, claimed that Leonardo contributed the left-hand angel in the painting, and that its great beauty prompted fierce jealousy in Verrocchio. Although Vasari wrote decades after the events and we have to take his words with a pinch of salt, many art historians nevertheless agree that the angel – and some parts of the landscape – were painted by the young artist.

The Baptism of Christ painted by Verrocchio and assistants
The Baptism of Christ (1475–78) by Verrocchio and assistants. Leonardo's skilfully painted angel (far left) was said to have made his master jealous. (Photo by DeAgostini /Getty Images)

By this point, Leonardo was also producing works of art that were entirely his own efforts, such as the Annunciation. This picture might have been his ‘masterpiece’: the work that proved he had mastered his profession and was eligible to join the painters’ guild. It shows the young Madonna interrupted in her reading by the arrival of Gabriel, winged like a bird of prey, who tells her she will give birth to the son of God. They appear in a beautiful garden, the ground strewn with flowers. In the background the vista fades away into misty mountains. Both the Virgin and angel are delicate beauties, in the same vein as the Baptism of Christ’s left-hand angel. In these early paintings, we can see themes that were to preoccupy Leonardo throughout his career: the workings of light and vision; emotional interaction between figures; the careful observation of the natural world; and the depiction of ideal beauty.

3

Leonardo proves his worth to the Duke of Milan

Around 1482, Leonardo left Tuscany and journeyed north to Milan, seeking the patronage of the city’s ruler, Ludovico Sforza. For ambitious artists, writers, scholars and musicians, there was nothing better than an official position at the court of a great lord or lady. It came with a salary, providing freedom from the usual pressure to hustle for commissions and stick to agreed deadlines.

This was clearly an attractive prospect for Leonardo, and he presented himself to Ludovico with a hard sell. With a canny awareness of what would most appeal to the duke, he laid out his skills in a letter. First and foremost, he declared, he was a master of “instruments of war”, who could build ingenious weapons for Ludovico that would “cause terror to the enemy” (this was a time of almost constant conflict). Most of the letter is taken up with descriptions of these “secret” military inventions, but Leonardo also mentions the bronze equestrian monument Ludovico wished to erect in honour of his late father, Francesco, boasting that he would be able to make this “to the immortal glory and eternal honour… of the illustrious house of Sforza”.

A 19th-century relief at Piazza della Scala, Milan, showing Leonardo presenting his new navigation system for the Navigli canal to Ludovico. (Image by Alamy)
A 19th-century relief at Piazza della Scala, Milan, showing Leonardo presenting his new navigation system for the Navigli canal to Ludovico. (Image by Alamy)

Leonardo concluded by listing his other talents: in architecture, hydraulics, sculpture and, finally, painting. During the Renaissance, it was common for painters to have several strings to their bow. Many were also skilled in other fields, such as sculpture, metalwork, manuscript illumination or engineering. Some read classical texts and published learned treatises on these topics. Leonardo was not entirely unusual then, but the range of areas in which he claimed to be a master was broad, making him an attractive prospect to a ruler such as Ludovico.

Although the duke was rich he was not profligate and Leonardo did not secure the salary he coveted until 1489. In the meantime, he took on commissions such as the Virgin of the Rocks altarpiece. This shows the apocryphal meeting of the little cousins Christ and John the Baptist in a mysterious rocky landscape, watched over by the Virgin and an angel. The carefully arranged composition is suffused with a gentle light and sense of calm majesty, the figures united by gestures and gazes. The painting showcases his talents and was swiftly celebrated.

4

Leonardo's intimate court paintings break new ground

In July 1493, Leonardo noted that a woman named ‘Caterina’ had joined his household in Milan. This could have been a housekeeper, but it may be that after many years, he was finally reunited with his mother. This would have presumably brought additional happiness at a time of general prosperity and success for the artist, who had been given quarters in the Corte Vecchia, an old ducal palace. There he had a large workshop space, allowing him to build a huge model of the monument to Ludovico’s father. Included among the members of his workshop were young Milanese artists such as Giovanni Antonio Boltraffio and Marco d’Oggiono, as well as apprentices including Gian Giacomo Caprotti da Oreno, better known as Salaì. Under Leonardo’s influence, they produced numerous drawings and paintings of exquisite young men and women.

Leonardo was fascinated by physical loveliness, but the activities of the workshop were also shaped by the tastes of the courtly circle that surrounded Ludovico. This included nobles, scholars, poets, musicians and physicians, many of whom were also interested in ideal beauty, and what it communicated about those who possessed it. Leonardo and Boltraffio (who was of noble blood) were welcomed into this world. Pleasurable time was passed debating the key intellectual questions of the day, and Leonardo was praised for his knowledge and verbal skill. During this period, he produced a number of portraits of members of the court: a musician who was probably his friend Atalante Migliorotti (Portrait of a Musician); the educated and erudite Cecilia Gallerani, Ludovico’s teenage mistress (Lady with an Ermine); and a self-possessed, dark-haired woman, possibly Lucrezia Crivelli (La Belle Ferronnière), pictured below.

Contemporaries spoke with admiration of Leonardo's ability to encapsulate an individual's inner world in a single image. (Photo by Leemage/Corbis via Getty Images)
Contemporaries spoke with admiration of Leonardo's ability to encapsulate an individual's inner world in a single image. (Photo by Leemage/Corbis via Getty Images)

In these paintings, Leonardo employed traditional methods of identifying a sitter – the musician, for example, holds a sheet of music – and potent symbolism. The ermine caressed by Cecilia represents both chastity and lust, and is a play on her name (the Greek word for ‘weasel’ is similar to Gallerani). But he also sought psychological realism, rejecting the more traditional profile format in favour of dynamic poses that highlight the life and movement of each sitter, and make viewing feel like a truly interactive experience. Contemporaries spoke with admiration of Leonardo’s ability to encapsulate an individual’s inner world in a single image. The court poet Bernardino Bellincioni wrote that the painted Cecilia “appears to be listening”, and that she would remain “alive and beautiful” for all eternity thanks to Leonardo’s skill.

5

A religious masterpiece is born

Relatively early in the 1490s, Leonardo received another major commission. He was asked to paint a mural of the Last Supper in the refectory of the Dominican monastery of Santa Maria delle Grazie in Milan, where the ducal family often worshipped. The task of depicting Christ’s final meal with his disciples, when he revealed to them foreknowledge of his terrible betrayal and death, must have been exciting for Leonardo. It allowed him to explore visually his beliefs about how the body communicates inner states of being.

Fascination with this question drove both his artistic and scientific investigations, for it is impossible to clearly divide one from the other. Leonardo’s notes are full of assertions that the painter ought to be constantly aware of how the “motions of the mind” are visible in bodily movements, gestures and facial expressions. He even recorded the faces of passers-by that struck him as particularly interesting and animated. As ever, he wanted to comprehend the underlying mechanisms of these processes, and his skull studies also reveal a probing effort to understand how the intellect, or soul, is linked to the body’s physical apparatus.

Detail from The Last Supper
Detail from The Last Supper showing the reaction of Christ's disciples as he predicts his betrayal and death. (Photo by: Leemage/UIG via Getty Images)

The Last Supper gave Leonardo the opportunity to put his theories on display. Astonished and devastated by Christ’s announcement that one of them would cause his death, the disciples convey their feelings with fierce clarity through their body language. The Apostle James flings his arms out in shock, his face registering horror. John the Evangelist turns away from Jesus in pain, as St Peter grabs his knife and gestures in disbelief. Judas’s pose reveals his guilt: unlike the others, he does not gesture wildly or in sorrow, but simply turns to Christ in surprise and clutches to himself a bag of coins, the payment for his betrayal. Jesus is the calm centre of the composition, and our eyes are led inexorably to him by the spatial arrangement of the picture and its vanishing point.

While the subject of the picture was much to Leonardo’s liking, its size posed a challenge. He preferred to work slowly and delicately, but fresco painting had to be done quickly. To solve this problem, he developed a new method of applying the pigment, allowing him to move at his preferred pace. Over the years the duke became impatient with the slow progress of the painting, and Leonardo had to mollify him with promises that he was getting on with it. Ultimately, Ludovico was much pleased with the work, and he rewarded Leonardo with the gift of a vineyard near Porta Vercellina. The picture’s fame spread, although Leonardo’s experiments with the new way of applying the pigment soon caused it to begin to deteriorate.

6

From military architecture to the Mona Lisa

Having spent the previous year working as a military architect and engineer for Cesare Borgia, captain of the papal armies, in 1503 Leonardo sought a new patron. He wrote to the Ottoman Sultan Bayezid II describing his prowess in hydraulics and engineering, and offering to build bridges: one “as high as a building, and even tall ships will be able to sail under it”; another “across the Bosporus to allow people to travel between Europe and Asia”. Nothing came of this overture and Leonardo, who was now 51, must have been frustrated by the loss of security and, above all, freedom that he had experienced since leaving Milan. He had to return to the world of the jobbing artist, bound by the terms of contracts, with his time spoken for.

A study for the mural of the Battle of Ansiari.
A study for the mural of the Battle of Ansiari. (Photo by © Alinari Archives/CORBIS/Corbis via Getty Images)

Leonardo came to be employed by the Florentine republic to manage the diversion of the river Arno, and was commissioned to produce an enormous mural of the battle of Anghiari in the city’s Great Council Hall. The painting, in the seat of power where government was conducted, was to celebrate Florentine military prowess, and was intended to match another mural, of the battle of Cascina, by Michelangelo. The plan thus pitted the two great Tuscan artists against one another in direct competition. Leonardo’s surviving drawings for his mural reveal tangles of men and horses caught in the heat of battle. Faces contort with tension, rage and valour; as with The Last Supper, he wanted viewers to be immersed in the emotion of the scene. There is another similarity with The Last Supper: once more, Leonardo experimented with painting techniques, and once more he was not successful. The colours of the mural ran together, and parts were obscured.

In the same year Leonardo began work on a portrait of Lisa Gherardini, the wife of the merchant Francesco del Giocondo. He could not have known that this little painting, with its clever play on Lisa’s name – her smile indicating that she was giocondo (jocund) – would become the most famous work of art ever created.

7

Leonardo deepens his anatomical investigations

By 1510, Leonardo was settled in Milan and in receipt of a salary from the French king Louis XII, allowing him to focus his attentions on his own interests rather than a major commission. Probably working alongside Marcantonio della Torre, a professor of anatomy from the nearby University of Pavia, he had ready access to bodies for dissection. He started compiling a treatise on anatomy, beginning with the study of “a perfect man” and then discussing the bodies of an old man, an infant and a woman, taking in the development of the foetus in the womb. Leonardo also produced a series of drawings of the skeleton and musculature that remain breathtaking in their detail, clarity and beauty. They not only demonstrate his desire to reveal the body’s secrets, but also an extraordinary level of artistic innovation.

Partly thanks to his experience in architecture and engineering, Leonardo developed new methods of depicting the complexity of bodily systems and structures in two dimensions that communicate clearly with no loss of information. These included exploded and layered views, and sequential drawings in series. His anatomical work in this period was driven by empirical observation, but in his notes, we find references to the infinite wisdom of the twin creators, nature and God (“il maestro”), thanks to whom the internal workings of the body are organised so perfectly.

A study of a foetus in the womb accompanied by detailed hand-written notes
A study of a foetus in the womb accompanied by detailed hand-written notes, from Leonardo's notebook, c1510. (Image by Alamy)

In these years the artist was accompanied by Francesco Melzi, a young Milanese nobleman who became a sort of adopted son to him (formal or informal adoptions were common in the Renaissance, often utilised by those who did not have a natural heir). When, in December 1511, warfare once again forced Leonardo to leave Milan, Melzi hosted him in his family’s villa at Vaprio d’Adda, Lombardy.

While staying in the Melzi villa, Leonardo reverted to his interest in the dissection of animals – a mainstay of anatomical investigation at a time when it was not always easy to access human bodies. His fervent desire to comprehend the workings of the heart are revealed in the copious notes and drawings he made of the heart of oxen, wherein he carefully observed the passage of blood through the valves.

8

Gathering a lifetime’s meditations

In 1516 Leonardo went to live in France, at the invitation of the new king Francis I. In 1517, he received a visit from Cardinal Luigi d’Aragona. The cardinal’s secretary recorded that, on a previous occasion, he had visited The Last Supper in Milan, which was “most excellent” but “beginning to deteriorate”. Now he encountered Leonardo, himself “an old man”, who showed them three paintings: a “Florentine woman done from life” (likely the Mona Lisa), Saint John the Baptist and a Virgin and Child with Saint Anne. All three were “most perfect”. It was unusual for an artist to keep paintings with him for such lengthy periods and not part with them, but the fact that Leonardo did so indicates the pictures’ importance to him. It was also convenient to have them ready to display to important guests of the king. Leonardo’s fame was well established by this point, and it would have been politically useful for Francis I to be able to bask in the reflected glory of being his patron.

Unfortunately Leonardo was no longer capable of painting owing to his age and infirmity. He still did some teaching, but mainly spent his working days organising his voluminous notes for publication. The cardinal’s secretary recalled being shown writings on machines and hydraulics and many anatomical drawings by Leonardo, who told them he had performed 30 dissections over his lifetime.

In peace and security, the artist concluded his final years, marshalling a lifetime’s work of meditation on the mysteries of life: the forces of nature; God’s movement in the universe; and the perfection of the human body and soul. His fascination with these weighty themes drove his activities in painting, sculpture, anatomy, natural science, architecture, optics and hydraulics.

Although today we consider the realms of art and science to be separate, this is not something that Leonardo and his Renaissance contemporaries would have acknowledged. Rather than seeking to compartmentalise his many spheres of activity, we come closer to Leonardo when we recognise the underlying interests that motivated and fuelled them all.

Maya Corry is an art historian at the University of Oxford, whose research is focused on early modern Italy. She is author of upcoming Beautiful Bodies: Spirituality, Sexuality and Gender in Leonardo’s Milan (OUP). This article first appeared in BBC History Magazine's Leonardo da Vinci Special Edition


7 of Leonardo da Vinci's visions for the future

Marina Wallace explores seven of Leonardo da Vinci's most forward-thinking ideas and inventions for BBC History Magazine – from the telescope to the flying machine…

Works of art

Drawing was, for da Vinci, primarily a learning exercise: a type of brainstorming on paper. Always keen to experiment with new techniques, da Vinci would make clay models, cover them with linen dipped in wet clay, and then draw from them. Black and white pigment was then applied with a brush as a way of executing studies in light and shade – known as chiaroscuro.

One of da Vinci’s most famous works, Mona Lisa, exemplifies the sfumato technique he is known for, where colours are blurred like smoke to produce softened outlines. In the words of da Vinci himself, “the eye does not know the edge of any body”.

Da Vinci was not afraid to adopt unorthodox methods in painting. In his c1498 work The Last Supper he rejected traditional fresco techniques of the day (pigment mixed with water and sometimes egg yolk on moist plaster). Instead, he experimented with other water and oil-based mediums in order to create his masterpiece.

Technical examination of panel paintings, such as his c1501 work Madonna of the Yarnwinder, has also revealed that da Vinci used strikingly complex underdrawings in his work. Spolvero marks (charcoal dust) have been discovered beneath several of his paintings, which confirms he used a cartoon – a full-size preparatory study for a painting transferred onto the panel via a method similar to tracing.

His use of hand- and fingerprints to blend shadows also distinguishes his paintings from those of his contemporaries, and his use of light influenced many artists after him. His unique way of viewing drawing as an investigative technique still influences artists, including Joseph Beuys who, in 1975, produced several conceptual works influenced by da Vinci’s manuscripts in the Codex Madrid (1490–1505).

Human Anatomy

Throughout his career da Vinci strove for accuracy in his anatomical drawings. Although most of these were based on studies of live subjects, they reveal his knowledge of the underlying structures observed by dissection. Da Vinci acquired a human skull in 1489, and his first documented human dissection was of a 100-year-old man, whose peaceful death he witnessed in a Florentine hospital in 1506.

Curious about the structures and functions of the body, da Vinci dissected around 30 corpses in his lifetime.

Human dissection was tightly regulated by the church, which objected to what it saw as desecration of the dead. Nevertheless, da Vinci’s dissections were carried out openly in the Hospital of Santa Maria Nuova in Florence. Among his drawings is an ink and chalk sketch of a baby in utero, probably made by dissecting a miscarried foetus and a woman who had died in childbirth.

Da Vinci perceived the workings of the human body to be a perfect reflection of engineering and vice versa. In 1508, his studies of hydrodynamics coincided with the study of the aortic valve and the flow of blood to the heart. He annotated instructions for wax casts and glass models of the aorta and recorded experiments with flowing water, using grass seeds to track the flow of ‘blood’. Through these experiments he observed that the orifice of a heart’s open valve is triangular and that the heart has four chambers.

Da Vinci’s anatomical discoveries weren’t widely disseminated, and it was another century before the rest of the world began to catch up: William Harvey didn’t publish his theories on the circulation of blood until 1628.

Study of Optics

A number of da Vinci’s manuscripts contain writings on vision, including important studies of optics as well as theories relating to shadow, light and colour. For da Vinci, the eye was the most important of the sense organs: “the window of the soul”, as he put it. We now know how the eye works, but in the artist’s time, sight was a mystery. To complicate matters further, the eye was a difficult organ to dissect. When cut in to, it collapses and the lens takes on a more spherical shape.

Da Vinci boiled his eye specimens, unknowingly distorting their lenses. After close examination he concluded that the eye was a geometrical body, comprising two concentric spheres: the outer “albugineous sphere”, and the inner “vitreous” or “crystalline sphere”. At the back of the eye, opposite the pupil, he observed, was an opening into the optic nerve by which images were sent to the imprensiva in the brain, where all sensory information was collated.

Da Vinci's 'Sections Of A Man's Head'
Da Vinci, intrigued by vision, recorded his experiments to find out how the eye works. (Photo by Print Collector/Getty Images)

Leonardo da Vinci’s observations on the workings of the eye preceded Johannes Kepler’s fundamental studies in the 17th century on the inner working of human retina, convex and concave lenses, and other properties of light and astronomy.

And like Kepler a century later, da Vinci was also fascinated by his observations of celestial bodies. He stated: “The moon is not luminous in itself. It does not shine without the sun.” In his notes he includes a reminder to himself to construct glasses through which to see the moon magnified. Although da Vinci never built his telescope – the first example wasn’t created until 1608 – the initial idea was his.

Manned Flight

Da Vinci was fascinated by the phenomenon of flight. He felt that if he could arrive at a full understanding of how birds fly, he would be able to apply this knowledge to constructing a machine that allowed man to take to the skies. He attempted to combine the dynamic potential of the human body with an imitation of natural flight.

In his notes, da Vinci cites bats, kites and other birds as models to emulate, referring to his flying machine as the “great bird”. He made attempts at solving the problem of manned flight as early as 1478 and his many studies of the flight of birds and plans for flying machines are contained in his Codex on the Flight of Birds, 1505. He explored the mechanism of bird flight in detail, recording how they achieve balanced dynamism through the science of the motions of air.

Leonardo da Vinci's design for fixed-wing aircraft
Da Vinci’s talents ranged from anatomy to military engineering, and many of his innovations were not explored further for several centuries. (Photo by SSPL/Getty Images)

One of the innovations da Vinci sketched out was an ornithopter, a bird-like system with a prone man operating two wings through foot pedals. For safety reasons he suggested that the machine should be tested over a lake and that a flotation device be placed under the structure to keep it from sinking if it fell into the water.

Da Vinci’s flight designs are not complete and most were impractical, like his sketch of an aerial screw design, which has been described as a predecessor of the helicopter. However, his hang glider has since been successfully constructed. After da Vinci, the 17th and 18th centuries witnessed several attempts at man-powered flight. The first rigorous study of the physics of flight was made in the 1840s by Sir George Cayley, who has been called the ‘father of aviation’.

Technical Drawing

Automation of industrial processes is often seen as a 19th-century concept, but da Vinci’s design for a file cutter shows the same idea. The operator turns a crank to raise a weight. After this the machine operates autonomously.

Some of da Vinci’s most modern-looking drawings are his studies of basic industrial machines. His best examples are designed to translate simple movement by the operator into a complex set of actions to automate a process. One particularly interesting device was for grinding convex mirrors, while his Codex Atlanticus shows a hoist that translates the backward and forward motion of a handle into the rotation of wheels to raise or lower weight. Next to simple drawings are exploded views (showing the order of assembly) to make the mechanism crystal clear.

The Codex Madrid, bound volumes with precise drawings concerning mainly the science of mechanisms, was rediscovered in 1966. Priority is given to the drawings, which are accompanied by a commentary or a caption. The care taken with the layout of each page and the finesse of the drawings indicates they are close to publishable form, either as a presentation manuscript or printed treatises. By showing component parts of machines in a clear fashion, da Vinci pioneered what was to come much later in the industrial age.

Almost all his industrial designs were proposals rather than inventions translated into concrete form. We might wonder how these could have revolutionised manufacturing had they been realised, but the real lesson da Vinci offers the world of science, mechanics, engineering and industry is less in his inventions and more in his highly innovative representational style and brilliantly drawn demonstrations.

Geology

Before da Vinci, very few scientists studied rocks trying to determine how they formed. The dominant belief about Earth science came from antiquity and Aristotle’s idea that rocks evolved over time, seeking to become perfect elements such as gold or mercury – a merging of geology with alchemy. Geological knowledge was based on the assumption that the Earth, surrounded by spheres of water, air and fire, was a divine creation. Deposits of fossils were thought to have been laid down by ‘the deluge’ (biblical flood) or to be of miraculous origin.

Da Vinci noted that fossils were too heavy to float: they could not have been carried to high ground by flood waters. Observing how in places there were several layers of fossils, he reasoned that such phenomena could not be the result of a single event. He observed layers of fossils in mountains high above sea level, concluding that the landscape was formed by repeated flooding and the erosive powers of water.

He wrote about his observations of rocks: “Drawn by my eager desire, wishing to see the great manifestation of the various strange shapes made by formative nature, I wandered some way among gloomy rocks, coming to the entrance of a great cavern, in front of which I stood for some time, stupefied and incomprehending such a thing.” In drawings such as A Deluge, and paintings such as the two versions of the Virgin of the Rocks, da Vinci captures his sense of mystery and wonder, replacing the divine with observation and physical explanations.

It was not until the 1830s that scientists including Charles Lyell and then Charles Darwin became convinced that the surface of Earth changes over time only slowly and gradually, not by sudden catastrophic events such as the biblical flood.

Da Vinci studied “strange shapes made by formative nature”, as seen in his painting Virgin of the Rocks
Da Vinci studied “strange shapes made by formative nature”, as seen in his painting Virgin of the Rocks. (Photo by Universal History Archive/Universal Images Group via Getty Images)

Engineering

Da Vinci’s extraordinary inventiveness led him to attempt to solve complex technical problems, such as transmitting motion from one plane onto another using intricate arrays of gears, cams, axles and levers. He was the first to design separate components that could be deployed in a variety of devices, ranging from complex units such as the gears for barrel springs and ring bearings for axles to simple hinges. His mechanics included levers, cranes and ball bearings. As we’ve already noted, he drew such devices with great attention to reality, knowing that drawings needed to be amplified with designs of the individual parts.

Da Vinci’s genius as an engineer lay in seeing clearly how design must be informed by the mathematical laws of physics rather than just practice. He undertook military, civil, hydraulic, mechanical and architectural engineering, first applying his talents aged 30, when he was employed in Milan by Ludovico Sforza as a military engineer, an occupation he held for many years. Da Vinci designed instruments for war, including catapults and other weapons, and had ideas for submarines and machine guns.

For Sforza, da Vinci designed several bridges, including a revolving bridge for use by armies on the move. With wheels, a rope-and-pulley system and a counterweight tank for balance, it could be packed away and transported. Some of his famous designs, such as the ‘tank’, were not practical devices but technological musings aimed at a patron. His civil engineering projects, meanwhile, included geometry studies and designs of canals and churches with domes.

Da Vinci’s innovative attitude about how things work made him a pioneer in what later became the science of mechanics.

Marina Wallace was a director of the Universal Leonardo project, which aimed to deepen understanding of da Vinci. Her most recent book is 30-Second Leonardo da Vinci (Ivy Press, 2018)

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This article was first published in the May 2019 edition of BBC History Magazine

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