Impulses Collection

Nerve cells, computer artwork
Nerve cells. Computer artwork of nerve cells, or neurons

Record reproduction equipment (litho)
6009433 Record reproduction equipment (litho) by English School, (20th century); Private Collection; (add.info.: Record reproduction equipment)

Nanorobots. Computer artwork of nanorobots in the brain, surrounded by nerve impulses. Microscopic robot technology could be developed in the future to treat diseases in new ways

Involuntary movement. Descartes idea of how impulses from limbs reach the brain. He believed all nerves to be hollow. From Rene Descartes Opera Philosophica, 1692. Woodcut

Nerve cell, artwork F005 / 6921
Computer artwork of a nerve cell, also called a neuron. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Nerve cell, artwork F005 / 6919
Computer artwork of a nerve cell, also called a neuron. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Nerve cells, computer artwork F007 / 1988
Nerve cells. Computer artwork of nerve cells, or neurons

Heart chambers and sinus node, artwork C014 / 2030
Heart chambers and sinus node (yellow). Cutaway artwork revealing the four internal heart chambers and the heart valves and tendons (white). The two upper chambers are the atria

Neural cells F006 / 9203
Computer artwork depicting nerve cells and neural communication

Synapse, artwork C016 / 7535
Synapse. Computer artwork of a synapse, the junction between nerve cells (orange). Synapses transmit electrical signals from one nerve cell to the next

Synapses, artwork C014 / 0002
Synapses. Computer artwork of synapses, the junction between nerve cells (orange). Synapses transmit electrical signals from one nerve cell to the next

Synapses, artwork C014 / 0004
Synapses. Computer artwork of synapses, the junction between nerve cells (blue). Synapses transmit electrical signals from one nerve cell to the next

Synapses, artwork C014 / 0003
Synapses. Computer artwork of synapses, the junction between nerve cells (blue). Synapses transmit electrical signals from one nerve cell to the next

Nanorobots in the brain, conceptual image. In the future, it may be possible to introduce nanorobots into the human brain, where they will interact with biological neurones

Brain activity, computer artwork
Brain activity, conceptual artwork. The brain activity is represented by firing chemical synapses (green). Chemical synapses are junctions through which the cells of the nervous system signal to each

Nerve cell, computer artwork
Nerve cell. Computer artwork of a nerve cell, or neuron

Helicotrema cochlear structure, diagram
Helicotrema cochlear structure. Diagram of a cross-section through the cochlea (an organ found in the inner ear), showing the helicotrema

Heart conduction system, artwork
Heart conduction system. Artwork showing the impulse conduction system (red) of the human heart. The sinoatrial (SA) node consists of self-excitatory muscle cells that contract rhythmically at around

Nerve cells and synapses. Computer artwork of nerve cells, or neurons with synapses

Neural network, computer artwork
Neural network. Conceptual computer artwork of a brain, with the brains neural network represented by blue strands in the background. The front of the brain is at right

Parkinsons disease treatment, artwork
Parkinsons disease treatment. Computer artwork of electrodes, which have been surgically implanted in the brain to treat the tremors caused by Parkinsons disease

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Impulses: The Intricate Dance of Nerve Cells and Nanorobots In the vast realm of human existence, impulses reign supreme as the invisible messengers that orchestrate our every move. Like intricate dancers on a grand stage, nerve cells communicate through electrical signals, creating a symphony of involuntary movements. As if plucked from the depths of a computer artwork, these nerve cells form an awe-inspiring network within us. They transmit information at lightning speed, allowing us to experience sensations and react in ways both conscious and unconscious. From Descartes' contemplation on how impulses from our limbs reach the brain to modern-day nanorobots exploring uncharted territories within our bodies, this captivating journey unfolds before our very eyes. Imagine stepping back in time to witness record reproduction equipment meticulously etching litho prints onto pages from "The British Working Man or One Who Does Not Believe In Him. " Engravings depicting neural pathways remind us that even centuries ago, humans sought to unravel the secrets behind these enigmatic impulses. Artistic renderings capture the essence of nerve cells with breathtaking precision. Each stroke reveals their delicate structure - branching out like intricate trees reaching for sunlight. These artworks serve as reminders that beneath our skin lies a world teeming with life and energy. Amongst this vibrant tapestry are heart chambers pulsating rhythmically alongside the sinus node – nature's conductor orchestrating each beat. This artwork reminds us that impulses extend far beyond mere movement; they govern vital functions necessary for survival. Intriguingly complex neural cells captivate scientists who tirelessly explore their mysteries. With every discovery made about these microscopic powerhouses, we inch closer towards unlocking new frontiers in medicine and technology. Impulses hold sway over our lives - guiding actions both voluntary and involuntary alike. They connect distant parts of ourselves into one harmonious whole while simultaneously sparking curiosity within curious minds across generations. So let us marvel at these nerve cells, these messengers of life's impulses.