Search results for [Models (Patents)] at NC Cardinal

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Encyclopedia of American hand arms / by Chinn, George M.,1902-1987.(CARDINAL)183481; Hardin, Bayless E.(Bayless Evans),1912-1956.(CARDINAL)744532;

Subjects: Revolvers.; Pistols.; Firearms; Firearms.;

Available copies: 1 / Total copies: 1

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Mastering 3D printing / by Horvath, Joan.(CARDINAL)382087;

Includes bibliographical references (pages 189-192) and index.Material considerations: Filament quality control ; Selecting and using a filament ; Temperature and speed settings ; Will my filament spool run out during my print? ; Filament materials ; Polylactic acid (PLA) ; Acrylonitrile butadiene styrene (ABS) ; Nylon ; T-glase (PET) ; Polycarbonate ; Thermoplastic elastomers (TPEs) ; Research filaments ; Multiple extruders ; Printing dissolvable support ; Dual-extruder printer with two different materials -- Case studies: Simple print ; Simple print example 1: heart pendant ; Simple print example 2: abstract base ; Printing a vase ; Printing a complex object with fine detail ; Printing with support ; Hand-building support ; Dual extruders ; Dual extruders: using one head for support material ; Dual extruders: models in two colors (or two materials) ; Speed settings.pt. 1. Open source 3D printers. A brief history of 3D printing: What is 3D printing? ; Nature's 3D printers ; Historical additive manufacturing ; Types of 3D printers ; The early days of robotic 3D printers ; The RepRap movement ; The rise of crowdfunding ; Enabling technologies ; The Arduino ; Open source code repositories ; A case study of the printer evolution -- The desktop 3D printer: Who uses consumer 3D printers? ; Types of filament-based consumer printers ; Cartesian printers ; Deltabots ; Kits vs. assembled printers ; 3D printer design considerations ; Filament ; Frame ; Build platform ; Extruder design ; Moving parts ; Control electronics ; Machine tool or computer peripheral? ; Safety and ventilation -- Open source: Open source infrastructure ; GNU licenses ; Wikis, forums, and open source repositories ; Open source pros and cons ; Meeting the open source 3D-printing community ; The maker movement ; Makerspaces and hackerspaces ; Contributing to the open source community.pt. 2. The 3D printing process. Making a 3D model: What makes a model printable on a 3D printer? ; 3D model file formats ; What does "watertight and manifold" mean? ; Scanning a model ; Consumer-level 3D scanners ; CT scanners ; Downloading and modifying existing models ; Models of everyday things ; Specialized databases ; Creating a new model ; Using a CAD program ; Programs for specific applications ; Design considerations ; Complexity is free: hardware as a service ; Speed vs. customization -- Slicing a 3D model: What is "slicing"? ; 3D printing as cooking ; Tools and techniques ; Starting a print and getting a model to stick to the platform ; Supporting and orienting a model ; Effects of layer height ; Speed ; Managing internal open space ; Getting started: how to slice open an object ; Slicing programs: Slic3r ; Alternative hosting and slicing programs -- Driving your printer : G-code: Controlling your 3D printer ; Understanding G-code ; Using host programs ; Repetier host ; MatterControl ; Octoprint ; When a print starts ; During a print ; When a print finishes normally ; Getting a part off the build platform ; Picking off support and cleaning up the print ; Restarting or shutting off the printer ; Manually controlling your printer ; Stopping a print ; Changing a filament ; Changing temperatures during a print ; Basic hardware troubleshooting ; Running from an SD card.pt. 3. 3D printing meets traditional prototyping. Moving to metal: The sand-cast process ; Sand-casting terminology ; Patterns made from PLA ; Filling the flask with sand ; Cutting sprues and runners ; Pouring in the metal ; Finishing the sand casting ; Planning ahead for better casting ; Adding draft to patterns ; Avoiding undercuts ; Layer orientation ; Shrinkage and clearances ; Printing your sprues? ; Investment casting ; Lost-PLA process ; Casting vs. printing in metal ; Finding casting services -- Large prints and post-processing: Printing computationally complex objects ; Printing physically big objects ; Objects that are too long for the build platform ; Objects that are too big in more than one dimension ; Gluing the pieces together ; Sanding, chemical smoothing, painting, and dyeing ; Sanding ; Smoothing and bonding ABS with acetone ; Painting ABS and PLA ; Dyeing nylon -- Troubleshooting: Clicking or grinding noises ; Environmental issues ; Drafts ; Ambient temperature ; Humidity ; Dust ; Printer internal alignment issues ; Prints not sticking to the build platform ; Clogged nozzle solutions ; Cold pull ; Wire brush bristle ; Extruder drive gear teeth clogged ; Eliminate stringing ; Software updates.pt. 4. Using your printer. Printers in the classroom: Teaching design, engineering, and art ; Hands-on history ; William Hand, Jr. boat hull ; Herreshoff cleat ; Reactions to the 3D prints ; Learning through re-creating history ; The special-needs student ; After-school activities ; Robotics clubs and teams ; DIY girls ; Young maker programs ; Career tech ed ; Early-adopter experiences -- Scientific visualization: Visualizing molecular biology ; Model accuracy considerations ; Example: 3D-printed models of six-helix DNA bundles ; Visualizing mathematical abstractions ; Parabola math manipulative ; Surfaces of revolution ; Sinusoids ; General surface modeling ; Other scientific uses of 3D printing -- Futures: Technology trends ; Extreme users ; Improving the user experience ; Faster printing ; Filament ; Emerging 3D-printing applications ; Printing food ; 3D printing in medicine ; The developing world ; The business of 3D printing ; Printer patent issues ; Hardware as a service -- Appendix A: typical printer settings: Slic3r typical settings ; Cura settings differences -- Appendix B: links and resources: A brief history of 3D printing ; The desktop 3D printer ; Open source ; Making a 3D model ; Slicing a 3D model ; Driving your printer: G-Code ; Material considerations ; Case studies ; Moving to metal ; Large prints and post-processing ; Troubleshooting ; Printers in the classroom ; Scientific visualization ; Futures ; Focusing on 3D printing.

Subjects: Three-dimensional printing.;

Available copies: 2 / Total copies: 2

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The Whitney firearms. by Fuller, Claud E.,1877-1957.(CARDINAL)214810;

Bibliograhical footnotes.Our early troubles with France. An undeclared war. Congress prepares for hostilities and authorizes the 1798 Contracts for muskets. List of the contractors of 1798. Whitney contracts for ten thousand muskets. Whitney's experience with the Cotton-Gin patent. The development of his Cotton-Gin and his failure to realize anything from this patent -- A study of the 1798 contracts. Some of the provisions that could not be fulfilled. The Proof of musket barrels and how it could be a handicap to the contractor. Report on Springfield Armory to 1801. Copy of Whitney's contract. His explanation of his failure to make progress. Professor Trowbridge Rwports on arms manufacturing -- Whitney threatened with contract cancellation. Description of 1798 musket. His contracts with New York and Connecticut. His U.S. contract of 1812 -- The contracts of 1808. The establishment of six private armories. A memoir by Whitney. Asa Waters and his contribution to the art. Sketch of Thomas Blanchard. Simeon North's work. The Reuben Ellis contract. Lemuel Pomeroy and Henry Deringer. Nathan Staff, Sword maker. John H. Hall and his work. Description of Whitney 1812 musket. Ward's primer lock -- The contract system and the so-called pricate armories. The percussion period. Whitney-Enfield rifle. The Plymouth rifle. Whitney artillery rifle. Whitney Confederate musket. Whitney tape-lock musket. The Maynard primer. The model 1861 musket --Breech-loading arms. The swinging breech patent. The Laidley-Whitney systen -- The Howard rifle. The Phoenix line. The Kennedy magazine rifle. The Colt-Walker revolver. The experimental models before the Whitneyville-Walker-Colt contract with Whitney. The Whitney-Beal revolver. Whitney's early Army and Navy revolvers. Whitney's rim-fire revolver

Subjects: Whitney, Eli, 1765-1825.; Firearms.;

Available copies: 1 / Total copies: 1

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Shubert's choice / by Bailey, Rebecca Anne,1952-(CARDINAL)520088;

Shubert the lightning bug discovers the power of choices to help him stay focused while getting ready for school. Read along to see how he uses choices to help his classmates clean up and ask for help instead of fighting. Sara, Shubert s Mom, models ways for adults to offer two positive choices to help children increase their attention span, follow through on a task, and improve their self-esteem.

Subjects: Fiction.; Choice (Psychology); Self-esteem;

Available copies: 4 / Total copies: 4

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The total inventor's manual / by Ragan, Sean Michael,author.(CARDINAL)430677;

MAKING ONE: ON THE CARE AND FEEDING OF IDEAS. Give yourself permission ; Clear space in your head ; Write it down right away ; Protect your ideas with a notebook ; Peruse the patents ; Honor mother necessity ; Start close to home ; Work with what you've got ; Go on a "junket" ; Find your tribe ; Take a cue from the CueCat ; Determine if you idea is a good one ; Discover brainstorming ; Brainstorm with a group ; Hone your drawing skills to develop your ideas ; Pick the best view for your sketch ; Draw a concept sketch of your invention ; Try your hand at classic drawing exercises ; Meet Dr. Nakamats ; Hear inventor's thoughts on ideation ; Dive into computer-aided design (CAD) ; Get the full benefit of CAD ; Learn how computers think about solids ; Make your first 3D CAD model -- THE PROTOTYPING CYCLE. Ride the prototyping spiral ; Work toward major milestones ; Check out famous prototypes ; Make it quick and dirty ; Save time with off-the-shelf building systems ; Tap the power of your paper printer ; Set your prototype aside ; Come back to it ; Try and try again ; Ask the big questions ; Start learning how to make stuff ; Match material, method, and scale ; Crank up some mechanisms ; Know what you're getting into ; Assemble an inventor's tool kit ; Meet the laser cutter ; Find one in the wild ; Make your first laser-cut parts ; Don't shoot your eye out ; Meet Steve Sasson ; Get the big-picture view of electronics ; Imagine water flowing ; Learn electrical terms ; Get comfortable with components ; Build your first circuit ; Rev up the actuators ; Meet Limor Fried ; Make your invention move ; Bone up on basic mechanical design ; Build a lazier Susan ; Improvise a power source ; Get prototyping tips from the masters -- THE TESTING PROCESS. Test in the real world ; Pay for hard science ; Conduct qualitative testing ; Host a focus group ; Find some good testees ; Master the questionnaire ; Craft your user stories ; Dissect a competing product ; Don't get caught in the iridium trap ; Meet the 3D printer ; Pick the best printing method ; Buy or borrow a 3D printer ; Print you first 3D model ; Hunt for 3D models online ; Meet Meg Crane ; Start out in software ; Get to know embedded systems ; Try out a development board ; Speak your computer's language ; Decode different programming languages ; Program your first board ; Don't reinvent the wheelSELLING ONE: FINDING FUNDING. Join the crowdfunding craze ; Take it to the bank ; Check out the top kickstarters ; Get an angel on your shoulder ; Play the venture capital game ; Call Uncle Sam ; Decipher financial statements ; Start your business plan ; Avoid crashing and burning like the Zano ; Pick a crowdfunding platform ; Run a winning crowdfunding campaign ; Make a killer kickstarter video ; Just add cats ; Meet Helen Greiner ; Get industry advice on getting funded ; Meet Peter Homer -- SWIMMING WITH THE SHARKS. Listen to the grapevine ; Protect your brand ; Protect your hardware ; Protect your software ; Protect your posterior ; Discover the first patent laws ; Start a company (in Delaware) ; Pick the best type of business for you ; Protect your people ; Drill for profits better than the Drake Oil Well ; Meet Julio Palmaz ; Understand what's patentable ; Know your patent types ; Stall with a provisional patent application ; Enforce your patent ; Apply for a utility patent ; Nail your patent specifications ; Meet Bre Pettis -- MAKING IT PRETTY. Show some ID ; Understand the importance of styling ; Get inspired by classic designs ; Remember usability ; Opt for functionalism ; Get to the Holy Grail: The works-like-looks-like prototype ; Practice human-centered design ; Enhance your ergonomics ; Consider CMF ; Discover the Pantone System ; Go old school with foam modeling ; Explore different modeling materials ; Sculpt a mockup in foam ; Craft details like a scale modeler ; Meet Ayah Bdeir ; Get inspired by leaders in design -- MAKING MANY: DESIGN FOR MANUFACTURE. Treat industrial and manufacturing design as one step ; Learn from the locals ; Watch how it's made ; Consider kitting ; Find a factory ; Make things easy to make ; Take a trip down the assembly line ; Master manufacturing processes ; Stamp parts with a four-slide machine ; Geek out on specialized machines ; Go local or overseas ; Assess life cycle ; Practice design for disassembly ; Embrace the tenets of ecodesign ; Get to know PCB fabrication ; Learn what lives inside a PCB ; Find facts on datasheets ; Design your own printed circuit board ; Wield a soldering iron like a pro ; Meet Samantha Rose ; Say hello to the CNC Mill ; Meet papa, mama, and baby bear ; Play it safe when CNC milling ; Mill you printed circuit board ; Buy or borrow a PCB mill ; Get manufacturing tips form pros who knowWORKING WITH A MANUFACTURER. Insist on a pilot build ; Be smart about quality control ; Drop a BOM (bill of materials) ; Run a final design review ; Pay a visit to the plant ; Get the backstory on injection molding ; Avoid Nike's ethical manufacturing woes ; Seek certifications ; Prevent highway robbery ; Meet the injection-molding machine ; Mold it right ; Check out the world of plastic parts ; Cast a themoset facsimile part ; Meed Ashok Gadgil -- SUPPLY-CHAIN MANAGEMENT. Choose parts with an eye to supply ; Outsource outsource outsource ; Put a bar code on it ; Count parts with a counting scale ; Run a tight ship ; Manage your inventory with software ; Take a lesson form LEGO ; Pack a pallet ; Avoid Apple's Power Mac problems ; Manage your warehouse space ; Pick a warehouse floor plan ; Pack a kit -- SELLING MANY: MAKE IT TO MARKET. Sell the right product ; Set the right price ; Grok basic marketing dos and don'ts ; Be seen in the right places ; Sell your product as seen on TV ; Promote online ; See the flaws in the jewel case ; Pitch you product to influencers ; Understand package design basics ; Discover different packaging types ; Ace your product's packaging ; Get marketing tips form the pros ; Meet Massimo Banzi -- CUSTOMER SUPPORT. Don't be that guy ; Help those who help themselves ; Help those who ask for help ; Humanize and empower support staff ; Set up a call center ; Heed the ten commandments of customer support ; Exceed expectations on social media ; Let software help manage customers ; Don't confuse service with sales like Comcast ; Plan a killer instruction manual ; Show don't tell ; Write simply and clearly ; Make an instruction manual ; Balance online and in-the-box help ; Meet Eric Stackpole -- SELL OUT...OR SELL ON. Pick your moment ; Look for a hired gun ; Prep before selling ; Perform a SWOT analysis ; Set the best value ; Find the right buyers ; Negotiate like a pro ; Study up on massive IPOs ; Decide if you should stay or go ; Cash out with an IPO ; Give licensing a go ; Be savvy about selling ; Study up on mergers and acquisitions ; Sell you company ; Ask for an NDA upfront ; Meet Lonnie Johnson.Contrary to popular wisdom, you don't have to be an ace electrician, a coding prodigy, or a mechanical master to come up with a game-changing invention! You just need curiosity, a strong desire to fix a problem that you see in the world, and the determination to see your ideas become reality - and this book, which will teach you everything you need to go from zero to inventor. Everyone wants to be the next Bill Gates or Steve Jobs, but there's never been a clear road map to becoming a wildly successful innovator - until now. In The Total Inventor's Manual, you'll learn to MAKE ONE: Get that great idea out of your brain and into the real world with a crash course in ideation, prototyping, and testing. Includes clever, can-do lessons in CAD, 3D-printing, laser-cutting, electronics, robotics, coding, and more; SELL ONE: Whether you're riding the Kickstarter wave or hitting the venture capital beat, get your idea funded--and protect it with a proper patent. Then learn to refine your prototype's look and feel to give it a boost in the market; MAKE MANY: Bring your invention to the masses with tips on manufacturing processes and best practices, plus solid advice for beginners on running a supply chain; SELL MANY: You've built it - time to make them come. Discover how to effectively position your product in the marketplace, deal with consumer feedback, and run--or sell--your newly successful company.

Subjects: Handbooks and manuals.; Inventions; Inventions;

Available copies: 2 / Total copies: 3

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I invented the modern age : the rise of Henry Ford / by Snow, Richard,1947-(CARDINAL)186376;

Includes bibliographical references (pages 341-346) and index."From an acclaimed popular historian comes a fresh, meticulous, and entertaining account of Henry Ford and his invention of the Model-T--the machine that defined the dawning age in America. Every century or so, our republic has been changed by a new technology: 170 years ago it was the railroad; today it's the microprocessor. But in the early twentieth century it was the gasoline-combustion engine, built by a young, unknown, industrious man named Henry Ford. Born into a steam-powered world, the young farm boy saw the advantages of internal combustion; using his innate mechanical abilities, hard work, and imagination he transformed our nation's industry and went on to become an American icon. In many ways, his story is well known; in just as many other ways, it is not. Richard Snow weaves together a fascinating narrative of Ford's rise to fame--as well as his creative personality and spirit--through his greatest invention, the Model T. The car transformed our nation in a decade, and made Ford a national hero. But then Ford soured, and the benevolent side of his character went into an ever-deepening eclipse, even as the cultural change he initiated remade America. Snow, who "writes with verve and a keen eye" (The New York Times Book Review) has written a highly pleasurable read, and shows us the remarkable man who invented the modern age"--

Subjects: Biographies.; Ford, Henry, 1863-1947.; Automobile engineers; Industrialists; Automobile industry and trade; Ford Model T automobile;

Available copies: 15 / Total copies: 17

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Mechanical engineers' handbook / by Kutz, Myer.(CARDINAL)752662;

Includes bibliographical references and index.

Subjects: Handbooks and manuals.; Mechanical engineering;

Available copies: 1 / Total copies: 1

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Car crazy : the battle for supremacy between Ford and Olds and the dawn of the automobile age / by Miller, G. Wayne,author.(CARDINAL)775570;

Includes bibliographical references (pages 335-337) and index.Fastest man on earth -- Native sons -- The selden patent -- Meet me in St. Louis -- Sensation -- Bad behaviors, bad roads -- The horse loses power -- The West, still wild -- Victories and defeats -- Doubts subsiding -- "Equal to his weight in wildcats".

Subjects: Ford, Henry, 1863-1947.; Olds, Ransom Eli, 1864-1950.; Ford Motor Company.; General Motors Corporation. Oldsmobile Division; Ford Model T automobile; Oldsmobile automobile; Automobile industry and trade; Automobile industry and trade;

Available copies: 2 / Total copies: 3

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The entrepreneur's toolkit [sound recording] / by Goldsby, Michael G.,teacher,author.; Teaching Company.publisher.;

Professor Michael G. Goldsby, Ball State University.Taking a risk on a new business or other enterprise can be daunting, but the rules are simple and the payoff is immensely gratifying. It all starts with an idea, a few basic principles, an organizational checklist, and a research plan-a set of tools that helps you build your way to success. "The Entrepreneur's Toolkit" is that resource, teaching you how to get started and overcome the many obstacles on the path to a profitable and rewarding venture, whatever it may be. Taught by Professor Michael G. Goldsby of Ball State University, who heads one of the nation's premier undergraduate and graduate programs in entrepreneurship, these 24 half-hour lectures give you the background and skills to get ahead in today's competitive marketplace. By following Professor Goldsby's proven path, you can embark on your own enterprise with confidence. His presentation is filled with useful tips, case histories, and personal anecdotes, along with a wealth of recommendations for websites and other outside resources, which are cited in the lectures and the course guidebook. These include key agencies and professional organizations, plus sources of vital information such as patent databases, industry standards, and government regulations that apply to your business.

Subjects: Audiobooks.; Entrepreneurship.; New business enterprises.; Small business.;

Available copies: 1 / Total copies: 2

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Biochemistry for dummies / by Moore, John T.,1947-(CARDINAL)484054; Langley, Richard.(CARDINAL)544781;

5: Protein structure and function -- Primary structure: the structure level all proteins have -- Building a protein: outlining the process -- Organizing the amino acids -- Example: the primary structure of insulin -- Secondary structure: a structure level most proteins have -- A-helix -- B-pleated sheet -- B-turns and the Q-loops -- Tertiary structure: a structure level many proteins have -- Quaternary structure: a structure level some proteins have -- Dissecting a protein for study -- Separating proteins within a cell and purifying them -- Digging into the details: uncovering a protein's amino acid sequence -- 6: Enzymes kinetics: getting there faster -- Enzyme classification: the best catalyst for the job -- Up one, down one: oxidoreductases -- You don't belong here: transferases -- Water does it again: hydrolases -- Taking it apart: lyases -- Shuffling the deck: isomerases -- Putting it together: ligases -- Enzymes as catalysts: when fast is not fast enough -- Models of catalysis: lock and key versus induced-fit -- All about kinetics -- Enzyme assays: fixed time and kinetic -- Rate determination: how fast is fast? -- Measuring enzyme behavior: the Michaelis-Menten equation -- Ideal applications -- Realistic applications -- Here we go again: Lineweaver-Burk plots -- Enzyme inhibition: slowing it down-- Competitive inhibition -- Noncompetitive inhibition -- Graphing inhibition -- Enzyme regulation -- Allosteric control -- Multiple enzyme forms -- Covalent modification -- Proteolytic activation -- Part 3: Carbohydrates, Lipids, Nucleic Acids, And More -- 7: What we crave: carbohydrates -- Properties of carbohydrates -- They contain one or more chiral carbons -- They have multiple chiral centers -- Sweet topic: monosaccharides -- Most stable monosaccharide structures: pyranose and furanose forms -- Chemical properties of monosaccharides -- Derivatives of the monosaccharides -- Most common monosaccharides -- Beginning of life: ribose and deoxyribose -- Sugars joining hands: oligosaccharides -- Keeping it simple: disaccharides -- Starch and cellulose: polysaccharides -- 8: Lipids and membranes -- Lovely lipids: an overview -- Fatty subject: triglycerides -- Properties and structures of fats -- Cleaning up: breaking down a triglyceride -- No simpletons here: complex lipids -- Phosphoglycerides -- Sphingolipids -- Sphingophospholipids -- Membranes: the bipolar and the bilayer -- Crossing the wall: membrane transport -- Pumps -- Channels -- Steroids: pumping up -- Prostaglandins, thromboxanes, and leukotrienes: mopping up --9: Nucleic acids and the code of life -- Nucleotides: the guts of DNA and RNA -- Reservoir of genetic info: nitrogen bases -- Sweet side of life: the sugars -- Sour side of life: phosphoric acid -- Tracing the process: from nucleoside to nucleotide to nucleic acid -- First reaction: nitrogen base + 5-carbon sugar = nucleoside -- Second reaction: phosphoric acid + nucleoside = nucleotide -- Third reaction: nucleotide becomes nucleic acid -- Primer on nucleic acids -- DNA and RNA in the grand scheme of life -- Nucleic acid structure -- 10: Vitamins and nutrients -- More than one-a-day: basics of vitamins -- To B or not to B: B complex vitamins -- Vitamin B1 (thiamine) -- Vitamin B2 (riboflavin) -- Vitamin B3 (niacin) -- Vitamin B6 (pyridoxine) -- Biotin -- Folic acid -- Pantothenic acid -- Wonders of vitamin B12 -- Vitamin A -- Vitamin D -- Vitamin E -- Vitamin K -- Vitamin C -- 11: Be Quiet: Hormones -- Structures of some key hormones -- Proteins -- Steroids -- Amines -- Beyond and after: prohormones -- Proinsulin -- Angiotensinogen -- Fight or flight: hormone function -- Opening the letter: hormonal action -- Models of hormonal action -- Part 4: Bioenergetics And Pathways -- 12: Life and energy -- ATP: the energy pony express -- ATP and free energy -- ATP as an energy transporter -- It's relative: molecules related to ATP -- Nucleoside triphosphate family -- As easy as 1, 2, 3: AMP, ADP, and ATP -- Where it all comes from -- 13: ATP: body's monetary system -- Metabolism I: glycolysis -- Glucose: where it all starts -- Miles per gallon? Energy efficiency -- Going in reverse: gluconeogenesis -- Alcoholic fermentation: we'll drink to that -- Metabolism II: citric acid (Krebs) cycle -- Let's get started: synthesis of acetyl-CoA -- Three's a crowd: tricarboxylic acids -- Just a little gas: oxidation decarboxylation -- Production of succinate and GTP -- Oxaloacetate regeneration -- Amino acids as energy sources -- Electron transport and oxidative phosphorylation -- Electron transport system -- Script: oxidative phosphorylation -- Play: proposed mechanisms -- Box office: ATP production -- Involving the fats: B-oxidation cycle -- Not so heavenly bodies: ketone bodies -- Investing in the future: biosynthesis -- Fatty acids -- Membrane lipids -- Amino acids -- 14: Smelly biochemistry: nitrogen in biological systems -- Ring in the nitrogen: purine -- Biosyntheis of purine -- How much will it cost? -- Pyrimidine synthesis -- First step: carbamoyl phosphate -- Next step: orotate -- Last step: cytidine -- Back to the beginning: catabolism -- Nucleotide catabolism -- Amino acid catabolism -- Heme catabolism -- Process of elimination: the urea cycle -- Amino acids once again -- Metabolic disorders -- Gout -- Lesch-Nyhan syndrome -- Albinism -- Alkaptonuria -- Phenylketonuria --Introduction -- About this book -- Conventions used in this book -- Icons used in this book -- What you're not to read -- Foolish assumptions -- How this book is organized -- Part 1: Setting The Stage: Basic Biochemistry Concepts -- Part 2: Meat Of Biochemistry: Proteins -- Part 3: Carbohydrates, Lipids, Nucleic Acids, And More -- Part 4: Bioenergetics And Pathways -- Part 5: Genetics: Why We Are What We Are -- Part 6: Part Of Tens -- Where to go from here -- Part 1: Setting The Stage: Basic Biochemistry Concepts -- 1: Biochemistry: what you need to know and why -- Why biochemistry? -- What is biochemistry and where does it take place? -- Types of living cells -- Prokaryotes -- Eukaryotes -- Animal cells and how they work -- Brief look at plant cells -- 2: Dive in: water chemistry -- Fundamentals of H2O -- Let's get wet! physical properties of water -- Water's most important biochemical role: the solvent -- Hydrogen ion concentration: acids and bases -- Achieving equilibrium -- Sour and bitter numbers: the pH scale -- Calculating pOH -- Strong and weak: Bronsted-Lowry theory -- Buffers and pH control -- Identifying common physiological buffers -- Calculating a buffer's pH -- 3: Fun with carbon: organic chemistry -- Role of carbon in the study of life -- It's all in the numbers: carbon bonds -- Sticky chemistry: bond strengths -- Everybody has 'em: intermolecular forces -- Water-related interactions: both the lovers and the haters -- How bond strengths affect physical properties of substances -- Defining a molecule's reactivity: functional groups -- Hydrocarbons -- Functional groups with oxygen and sulfur -- Functional groups containing nitrogen -- Functional groups containing phosphorous -- Reactions of functional groups -- pH and functional groups -- Same content, different structure: isomerism -- Cis-trans isomers -- Chiral carbons -- Part 2: Meat Of Biochemistry: Proteins -- 4: Amino acids: the building blocks of protein -- General properties of amino acids -- Amino acids are positive and negative: the zwitterion formation -- Protonated? pH and the isoelectric point -- Asymmetry: chiral amino acids -- Magic 20 amino acids -- Nonpolar (hydrophobic) amino acids -- Polar and uncharged (hydrophilic) amino acids -- Acidic amino acids -- Basic amino acids -- Lest we forget: rarer amino acids -- Rudiments of amino acid interactions -- Intermolecular forces: how an amino acid reacts with other molecules -- Altering interactions by changing an amino acid's pH -- Combining amino acids: how it works -- Peptide bond and the dipeptide -- Tripeptide: adding an amino acid to a dipeptide --Part 5: Genetics: Why We Are What We Are -- 15: Photocopying DNA -- Let's do it again: replication -- DNA polymerases -- Current model of DNA replication -- Mechanisms of DNA repair -- Mutation: the good, the bad, and the ugly -- Restriction enzymes -- Mendel rolling over: recombinant DNA -- Patterns: determining DNA sequences -- Determining the base sequence -- Butler did it: forensic applications -- Genetic diseases and other DNA testing applications -- Sickle cell anemia -- Hemochromatosis -- Cystic fibrosis -- Hemophilia -- Tay-Sachs -- 16: Transcribe this! RNA transcription -- RNA polymerase requirements -- Making RNA: the basics -- Prokaryotic cells -- Eukaryotic cells -- To heck with Da Vinci: the genetic code -- Codons -- Alpha and omega -- Models of gene regulation -- Jacob-Monod (operon) model -- Regulation of eucaryotic genes -- 17: Translation: protein synthesis -- Hopefully not lost in translation -- Why translation is necessary -- Home, home in the ribosome -- Translation team -- Team captain: rRNA -- Here's the snap: mRNA -- Carrying the ball: tRNA -- Charging up the middle: amino acid activation -- Hooking up: protein synthesis -- Activation -- Initiation -- Elongation -- Termination -- Wobble hypothesis -- Variation in eukaryotic cells -- Ribosomes -- Initiator tRNA -- Initiation -- Elongation and termination -- Part 6: Part Of Tens -- 18: Ten great applications of biochemistry -- Ames test -- Pregnancy testing -- HIV testing -- Breast cancer testing -- Prenatal genetic testing -- PKU screening -- Genetically modified foods -- Genetic engineering -- Cloning -- Gene-replacement therapy -- 19: Ten biochemistry careers -- Research assistant -- Plant breeder -- Quality control analyst -- Clinical research associate -- Technical writer -- Biochemical development engineer -- Market research analyst -- Patent attorney -- Pharmaceutical sales -- Biostatistician -- Index.From the Publisher: Are you baffled by biochemistry? You're not the first, and you won't be the last. Here's the good news-you don't have to stay baffled! Biochemistry For Dummies shows you the fun and easy way to get a handle on biochemistry, apply the science, raise your grades, and prepare yourself to ace any standardized test. This friendly, unintimidating guide presents an overview of the material covered in a typical college-level biochemistry course and makes biochemistry basics easy to understand. It explains all the topics and practical applications in plain English. From cell ultrastructure and carbohydrates to amino acids, proteins, and supramolecular structure, you'll identify biochemical structures and reactions, send your grades soaring, and start looking forward to your next class, instead of dreading it. Discover how to: Master biochemistry basics; Work through biochemistry problems; Prepare for standardized tests; Grasp amino acid and protein structures; Nail down enzyme terminology; Get a grip on the Michaelis-Menton equation; Load up on carbo knowledge; Crack the nucleic acid code; Learn to love lipids-but not too much; Master the ABCs of vitamins; Apply biochem in everyday life; Explore a career in the field. From water chemistry to protein synthesis Biochemistry For Dummies gives you the vital information, clear explanations, and important insights you need to increase your understanding and improve your performance on any biochemistry test.

Subjects: Biochemistry.;

Available copies: 2 / Total copies: 4

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