On the other hand, though, Marvell was not alone in urging his reader to imagine placing the built environment in motion. The Italian Vincenzo Scamozzi, whose L’idea della architettura universale was owned and read closely by architects Inigo Jones and John Webb as well as by gentleman architect Sir Roger Pratt, included an illustration depicting light rays crossing from exterior to interior and then crisscrossing rooms inside a villa (Figure 2).⁶ Readers of architectural treatises were well accustomed to black lines on the printed page that indicated unchanging boundary – the external walls that set aside the interior in the section and the grid of walls that divided one room from another in the plan. There were certainly breaks in these boundaries, the blank white spaces left for windows and doors, but they were downplayed; they were small openings dwarfed by the long black lines. In Scamozzi’s illustration, these open windows and doors that rupture boundary walls become most important as the viewer sees light rays cut through the windows and pass across rooms. There is such a plethora of lines denoting rays in the plan that the usually prominent grid of walls becomes nearly lost beneath the web of diagonal lines. And these lines suggest a perpetually changeable interior – one where sunlight shifts across the day, even potentially changing from moment to moment with blowing clouds. The illustration itself requires the reader to put the interior in motion, for all of the light rays depicted would not enter the house simultaneously; rather, they would appear at different times of day and potentially during different seasons of the year. And the lines themselves denoted different pieces of information, suggesting light rays sometimes and delimiting areas of light and shadow inside a room at other points. It was as if Scamozzi had superimposed a series of plans depicting the house at various sunlit and interpretive moments; the reader then needed to separate these moments, replacing one with another and simultaneously rethinking the interior, to comprehend Scamozzi’s image.

Such swift mental shifts were, in fact, becoming a predominant mode of understanding one’s world across discourses. Scientists revealed how, in a mere blink of an eye and turn of the head, the basic scale of one’s world might change. As one looked into the recently invented telescope, once small stars and moon became suddenly up close – even a world that one could imagine inhabited; Thomas Hariot documented the moon’s topography in his detailed maps, while other authors, including John Wilkins and Francis Godwin, envisioned the moon’s topography and populations for their readers.⁷ Quickly shifting mental frameworks also became a means of rethinking the usual diagram introducing an almanac. Readers were accustomed to a nude body with astrological signs linked to particular body parts to reveal how various limbs and organs were under the control of the moon. At the beginning of The Ravens Almanacke, however, Thomas Dekker shows his readers this familiar diagram but playfully offers them variant interpretations (Figure 3). He asks, ‘do not those Roundels … shew like so many pardons, tyed to the partes of his body with Labels?’⁸ As he was carried through the streets, a criminal would have a placard attached to him identifying the nature of his crime.⁹ Likewise, the lines in Dekker’s diagram attach astrological signs to the nude male body to identify – to make manifest astral connections. Or, Dekker then speculates, the body could be that of ‘a theefe begd for an Anatomy in Surgeons Hall’ where the anatomist then performs a ‘slashing and slycing, and quartering & cutting’.¹⁰ The anatomist uses sharp tools to cut open the human body, to peel back the skin and reveal bones, veins, and organs. So too the diagonal lines in Dekker’s illustration are poised at the layer of the man’s skin, immediately above the inner anatomy. And they appear sharp lines with their striking black contrasting to the white page that evokes the white skin they may be about to puncture. The human body was as malleable as the world surrounding it; Dekker moved his diagram quickly – with a mere few sentences – from astrology to the legal system to anatomical study, changing its context as swiftly and fluidly as Nun Appleton House moved from square to circle.

Literal physical motion too became a new focus of describing the human body in scientific discourse. It was well known that circulation of nutrients and air through the body was essential to human survival. One breathed in some air and released other air; one also ingested food, then various organs filtered out the essential nutrients, and finally one excreted the unnecessary parts of the food.¹¹ But this circulation was often considered within the more general context of static human anatomy.¹² In his Mikrokosmographia, for instance, Crooke illustrated the veins by which blood passed nutrients through the body, yet he depicted the motionless veins and arteries rather than the blood that moved and his maps of veins and arteries occupied merely a few pages within his lengthy volume.¹³ In 1628, however, William Harvey produced an entire volume devoted to explaining circulation and announced his focus on motion from his very title, De motu cordis (‘On the Motion of the Heart’). In his text, he then focused on the movement of blood – how it travels from one area to another and how the speeds at which it travels can vary. And, in 1649, he published another volume that explained and justified these movements further: De circulatione sanguinis (‘On the Circulation of Blood’).¹⁴ The body was necessarily in motion in order to survive, the physical world – whether natural or built environment – changed perpetually around it, and the individual who constructed, experienced, and interpreted that world needed continuously to readjust in order to comprehend. Motion, that is, was becoming the de facto physical and mental mode of negotiating and navigating through one’s world.