Home > All Images > 2004 > March > 4 Mar 2004

Images Dated 4th March 2004 (page 2)

124 items

Big Bang. Conceptual computer artwork representing the origin of the universe. The term Big Bang describes the initial expansion of all the matter in the universe from an infinitely compact state

Images Dated 4th March 2004: Atrial fibrillation

Atrial fibrillation. Artwork of a section through a human heart during atrial fibrillation, a rapid, irregular heartbeat. In the background are ECG (electrocardiogram) traces

Images Dated 4th March 2004: Atherosclerosis

Atherosclerosis. Artwork of a human heart showing narrowing of the coronary arteries due to atherosclerosis, a build up of fatty deposits (atheroma, yellow) on the artery wall

Images Dated 4th March 2004: Samuel Morse, telegraph inventor

Samuel Morse, telegraph inventor
Samuel Morse (1791-1872), US inventor of the electric telegraph and Morse code. Morse started his career as a painter, but developed an interest in the study of electricity

Images Dated 4th March 2004: Claude Chappe, French engineer

Claude Chappe, French engineer
Claude Chappe (1763-1805), inventor of mechanical- optical telegraphy. Chappe was a French engineer and cleric. His rise to fame came during the French Revolution when he looked at ways to improve

Images Dated 4th March 2004: DNA with money

DNA with money. Computer artwork of a DNA double helix superimposed over a British 20 pound note. This image could represent the commercial implications of DNA research

Images Dated 4th March 2004: Destruction of DNA helix

Destruction of DNA helix. The computer artwork may represent the breakdown of DNA during an explosion or the destruction of DNA in hot, molten lava

DNA helix. Computer artwork of a DNA double helix. A molecule of DNA (deoxyribonucleic acid) consists of two helical strands coiled around the same axis

Images Dated 4th March 2004: DNA in bubble

DNA in bubble. Conceptual computer artwork of a DNA double helix within a bubble in water. This image could represent the fragility of the DNA molecule or the need for protection of an individuals

Images Dated 4th March 2004: DNA in space

DNA in space. Computer artwork of a DNA double helix in space above Earth. This may represent the possible uniqueness of Earth as a cradle of life in the universe

DNA helix. Computer artwork of a DNA double helix. A molecule of DNA (deoxyribonucleic acid) consists of two helical strands coiled around the same axis

Images Dated 4th March 2004: Genetic individuality

Genetic individuality. Conceptual computer artwork showing a DNA (deoxyribonucleic acid) helix over a barcode. DNA carries genetic information and each persons genetic information is unique

Images Dated 4th March 2004: DNA helices

DNA helices. Computer artwork of many DNA double helices. A molecule of DNA (deoxyribonucleic acid) consists of two helical strands coiled around the same axis

Drought. Dried and cracked mud during a drought. Droughts may increase in frequency due to global warming

Images Dated 4th March 2004: Antarctic ocean waves

Antarctic ocean waves. An iceberg is seen on the horizon (upper centre). Photographed in Antarctica

Images Dated 4th March 2004: Computer artwork of the Earth with a glow

Computer artwork of the Earth with a glow
Whole Earth. Computer illustration of the whole Earth seen with a glowing light on a starfield. The Earth is centred on Africa with land seen as brown, water as blue and clouds as white

Images Dated 4th March 2004: Aspartame molecule

Aspartame molecule
Aspartame. Computer-generated molecular model of aspartame (C14H18N2O5), the sugar substitute. Aspartame is composed of carbon (green), hydrogen (grey-white), oxygen (red) and nitrogen (blue)

Images Dated 4th March 2004: TNT molecule

TNT molecule
TNT. Computer-generated molecular model of TNT (C7H5N3O6). TNT (2, 4, 6-trinitrotoluene) is composed of carbon (yellow), hydrogen (grey- white), nitrogen (blue) and oxygen (red)

Images Dated 4th March 2004: Erwinia bacteria, TEM

Erwinia bacteria, TEM
Erwinia bacteria. Coloured transmission electron micrograph (TEM) of Erwinia carotovora bacteria (subspecies carotovora). This gram-negative flagellated bacterium causes soft rot of plant crops such

Images Dated 4th March 2004: Fly caught in sundew, SEM

Fly caught in sundew, SEM
Fly trapped in sundew. Coloured scanning electron micrograph (SEM) of a fly trapped on a leaf of Cape sundew (Drosera capensis)

Images Dated 4th March 2004: Pumpkin seedling, Cucurbita pepo

Pumpkin seedling, Cucurbita pepo
Pumpkin seedling. Macrophotograph of a pumpkin seedling, Cucurbita pepo, soon after germination. The seedling has unfurled its first leaves (at centre right and lower left)

TNT molecule
TNT. Computer-generated molecular model of TNT (C7H5N3O6). TNT (2, 4, 6-trinitrotoluene) is composed of carbon (yellow), hydrogen (grey- white), nitrogen (blue) and oxygen (red)

Images Dated 4th March 2004: Amylopectin molecule

Amylopectin molecule
Amylopectin. Computer-generated molecular model of amylopectin. Amylopectin is composed of carbon (green), hydrogen (grey/white) and oxygen (red)

Images Dated 4th March 2004: Sucrose molecule

Sucrose molecule
Sucrose. Computer-generated molecular model of sucrose (C12H22O11). Sucrose is composed of carbon (green), hydrogen (grey-white) and oxygen (red). Sucrose is a disaccharide (sugar)

Images Dated 4th March 2004: Maltose molecule

Maltose molecule
Maltose. Computer-generated molecular model of maltose (C12H22O11). Maltose is composed of carbon (green), hydrogen (grey-white) and oxygen (red)

Images Dated 4th March 2004: Lactose molecule

Lactose molecule
Lactose. Computer-generated molecular model of lactose. Lactose is composed of carbon(green), hydrogen (grey-white) and oxygen (red)

Images Dated 4th March 2004: Fructose molecule

Fructose molecule
Lactose. Computer-generated molecular model of lactose. Lactose is composed of carbon (green), hydrogen (grey-white) and oxygen (red)

Images Dated 4th March 2004: Glucose molecule

Glucose molecule
Glucose. Computer-generated model of glucose (C6H12O6). Glucose is composed of carbon (green), hydrogen (grey-white) and oxygen (red). Glucose is a monosaccharide (sugar)

Images Dated 4th March 2004: Cellulose molecule

Cellulose molecule
Cellulose. Computer-generated molecular model of cellulose. Cellulose is composed of carbon (green), hydrogen (white-grey) and oxygen (red)

Cellulose molecule
Cellulose. Computer-generated molecular model of cellulose. Cellulose is composed of carbon (green), hydrogen (grey-white) and oxygen (red)

Images Dated 4th March 2004: Amylose molecule

Amylose molecule
Amylose. Computer-generated molecular model of amylose. Amylose is composed of carbon (green), hydrogen (grey-white) and oxygen (red). Amylose is a polysaccharide that is a component of starch

Images Dated 4th March 2004: Masa Ushioda / SpecialistStock

Masa Ushioda / SpecialistStock
finless porpoise or sunameri, Neophocaena phocaenoides, feeding, found in coastal waters of Asia from Japan, China, Indonesia, India to Persian Gulf, captive

Images Dated 4th March 2004: Fishing - East of Hokkaido near the Russian islands (used to belong to Russia) Japan

Fishing - East of Hokkaido near the Russian islands (used to belong to Russia) Japan
WAT-8402 Fishing - East of Hokkaido near the Russian islands (used to belong to Russia) Japan M. Watson Please note that prints are for personal display purposes only

Images Dated 4th March 2004: British Formula Three Testing: Team boss, Trevor Carlin

British Formula Three Testing: Team boss, Trevor Carlin
Team boss, Trevor Carlin (GBR). British Formula Three Testing, Snetterton, England, 2 March 2004. DIGITAL IMAGE

Images Dated 4th March 2004: British Formula Three Testing: Alvaro Parente Carlin Motorsport

British Formula Three Testing: Alvaro Parente Carlin Motorsport
Alvaro Parente (POR) Carlin Motorsport. British Formula Three Testing, Snetterton, England, 2 March 2004. DIGITAL IMAGE

Images Dated 4th March 2004: British Formula Three Testing: Ryan Lewis T-Sport

British Formula Three Testing: Ryan Lewis T-Sport
Ryan Lewis (GBR) T-Sport. British Formula Three Testing, Snetterton, England, 2 March 2004. DIGITAL IMAGE

Images Dated 4th March 2004: British Formula Three Testing: Charles Zwolsman Manor Motorsport. Euroseries F3 Team

British Formula Three Testing: Charles Zwolsman Manor Motorsport. Euroseries F3 Team
Charles Zwolsman (NED) Manor Motorsport. Euroseries F3 Team. British Formula Three Testing, Snetterton, England, 2 March 2004. DIGITAL IMAGE

Images Dated 4th March 2004: British Formula Three Testing: Lucas Di Grassi Hitech Racing

British Formula Three Testing: Lucas Di Grassi Hitech Racing
Lucas Di Grassi (BRA) Hitech Racing. British Formula Three Testing, Snetterton, England, 2 March 2004. DIGITAL IMAGE

Images Dated 4th March 2004: British Formula Three Testing: Karun Chandhok T-Sport

British Formula Three Testing: Karun Chandhok T-Sport
Karun Chandhok (IND) T-Sport. British Formula Three Testing, Snetterton, England, 2 March 2004. DIGITAL IMAGE

All Professionally Made to Order for Quick Shipping

Why Choose Us?

We are a leading provider of Art Prints and Photo Gifts since 2003, working in partnership with a range of Sporting Clubs, Charities, Museums and Picture Libraries. A large share of profits from any of their images will go directly towards supporting that charity or club. Our archive of images is carefully curated to bring you a wide range of subjects, including landscapes, wildlife, architecture, and more. We ship from our partner labs in the UK, USA, EU (Netherlands) and Australia.

How do I place an order?

Ordering is quick & easy - Just follow 5 Simple Steps:

Find your image: Use our search box or browse our online photo Collections to find the image you want.
Choose your print format: Select your desired product and add it to your cart.
Enter your details: If you're a returning customer, simply enter your email address and password, and we'll fill in your billing and shipping address details. All personal details are held securely and are fully GDPR compliant. As standard, we remove all Personally Identifiable Information after 12 months.
Pay for your purchase: We use state-of-the-art security for online shopping and do not have access to your card details.
Sit back and relax: We'll email you confirmation of your order and when it's dispatched. Registered customers can also track orders in the 'My Account' area.

How do I pay for an order?

You can pay for your order with most of the major credit and debit cards, or PayPal. For added security, major financial institutions process payment details separately and securely on our behalf. We do not have access to your online payment card details. Online payments are preferred however we do take phone orders. For UK customers only we accept cheques issued against a UK bank.

Is my data safe?

We take data security very seriously. We do not have access to your full card details and all payments are requested over a fully secure connection. Additionally, we fully comply with current European and GDPR legislation, and automatically remove all personal data after at most 12 months (unless you have an account with us and have signed in recently). We also have a strict opt-in policy and would never sell your personal details. Your data is only used to fulfill your order promptly and efficiently.

Is wall art ready to hang?

For quick and easy installation all wall art, including framed prints, canvas prints and metal prints are supplied with a ready to hang solution on the back. Generally, saw tooth hangers are applied as they allow wall art to hang flush against the wall. The serrated edge of the hanger prevents the frame from shifting or tilting when hung.

Are the photo prints fade resistant?

Yes, we use archival quality photo paper photographic paper for vivid reproduction Prints are an accurate representations of the original artwork, which is preserved for artistic character and authenticity. We guarantee they match previews shown on our web site