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Township hack tool 2015 township. Lab: Textbook: Petrucci, Herring, Madura, Bissonette 'General Chemistry', Pearson, 10th Edition: Lab manual 'Principles of Chemistry I - CHEM101, available in the Meteksan bookstore: Scientific Calculator: Lab Coat (cotton) Notebook. Chem 101 L, General Chemistry Laboratory Manual textbook: 101 Lab 6: Pre-Lab Activities, Professors can easily adopt this content into their course.
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Whatever your requirements, our staff of experienced professionals will provide design and production services to ensure that your finished lab manual meets your needs precisely. We can:
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- Copyedit, write, and proofread content
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- Paginate the text and typeset the table of contents, title page, and copyright page
- Assign an ISBN and copyright the lab manual in your or your school’s name
- Print, bind, and deliver your lab manual to your campus bookstore on time—with no cost to you
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In addition to your own materials, your customized lab manual can include reprinted materials from a variety of sources—articles from professional journals, popular magazines, as well as excerpts and illustrations from books or other documents. You may intersperse original material and reprinted materials, create a lab manual entirely of reprinted material, or include only your own material. It’s up to you!
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No matter what the subject, we can help you produce a lab manual that you and your school will be proud of. You can submit your original work in print or digital format. We’ll work closely with you to determine the sequencing and sectioning of material, cover imagery, type of binding, page size, and any other special custom touches that would make it more useable for your students.
Contact us today to start customizing your textbook. It’s easier and more affordable than you think. Call XanEdu Editorial Services at 800-562-2147 or email [email protected].
Journal Publications
Pierce Chem 101 Lab Manual Answer Key
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Pierce Chem 101 Lab Manual Pdf
- A unified dynamic programming framework for the analysis of interacting nucleic acid strands: enhanced models, scalability, and speedACS Synth Biol, 9(10):2665-2678, 2020.
- Conditional guide RNAs: programmable conditional regulation of CRISPR/Cas function in bacterial and mammalian cells via dynamic RNA nanotechnologyACS Cent Sci, 5(7):1241-1249, 2019.
- Signal transduction in human cell lysate via dynamic RNA nanotechnologyACS Synth Biol, 7(12):2796-2802, 2018.
- Third-generation in situ hybridization chain reaction: multiplexed, quantitative, sensitive, versatile, robustDevelopment, 145:dev165753, 2018.
- Multidimensional quantitative analysis of mRNA expression within intact vertebrate embryosDevelopment, 145:dev156869, 2018.
- Constrained multistate sequence design for nucleic acid reaction pathway engineeringJ Am Chem Soc, 39:3134−3144, 2017.
- Mapping a multiplexed zoo of mRNA expressionDevelopment, 143:3632-3637, 2016.
- Single-molecule RNA detection at depth via hybridization chain reaction and tissue hydrogel embedding and clearingDevelopment, 143:2862-2867, 2016.
- Multiplexed miRNA northern blots via hybridization chain reactionNucleic Acids Res, 44(15):e129, 2016.
- Sequence design for a test tube of interacting nucleic acid strandsACS Synth Biol, 4(10):1086–1100, 2015.
- Combinatorial analysis of mRNA expression patterns in mouse embryos using hybridization chain reactionCold Spring Harb Protoc, 2015(3):259-268, 2015.
- Exquisite sequence selectivity with small conditional RNAsNano Lett, 14(8):4568-4572, 2014.
- Next-generation in situ hybridization chain reaction: higher gain, lower cost, greater durabilityACS Nano, 8(5):4284-4294, 2014. (open access)
- Developmental self-assembly of a DNA tetrahedronACS Nano, 8(4):3251-3259, 2014.
- Conditional Dicer substrate formation via shape and sequence transduction with small conditional RNAsJ Am Chem Soc, 135(46):17322-17330, 2013. (open access)
- Localizing transcripts to single cells suggests an important role of uncultured deltaproteobacteria in the termite gut hydrogen economy Proc Natl Acad Sci USA, 110(40):16163-16168, 2013.
- Selective nucleic acid capture with shielded covalent probes J Am Chem Soc, 135(26):9691-9699, 2013. (open access)
- Nucleic acid sequence design via efficient ensemble defect optimization J Comput Chem, 32:439-452, 2011.(pdf)(supp info)(supp structures)
- NUPACK: Analysis and design of nucleic acid systems J Comput Chem, 32:170-173, 2011.(pdf)
- Programmable in situ amplification for multiplexed imaging of mRNA expression Nature Biotechnol, 28:1208-1212, 2010.(pdf)(supp movie 1)(supp movie 2)(supp info)
- Selective cell death mediated by small conditional RNAs Proc Natl Acad Sci USA, 107(39):16777-16782, 2010.(pdf)(supp info)
Note: this paper has been retracted.Retraction for Venkataraman et al., Selective cell death mediated by small conditional RNAsProc Natl Acad Sci USA, 110(1):384, 2013. (pdf) - Programming biomolecular self-assembly pathways Nature, 451:318-322, 2008.
- An autonomous polymerization motor powered by DNA hybridizationNature Nanotech, 2(8):490-494, 2007.
- Thermodynamic analysis of interacting nucleic acid strandsSIAM Rev, 49(1):65-88, 2007.(pdf)
- Topological constraints in nucleic acid hybridization kineticsNucleic Acids Res, 33(13):4090-4095, 2005.(pdf)
- Triggered amplification by hybridization chain reactionProc Natl Acad Sci USA, 101(43):15275-15278, 2004.(pdf)
- A synthetic DNA walker for molecular transportJ Am Chem Soc, 126:10834-10835, 2004.
- Rewritable memory by controllable nanopatterning of DNANano Lett, 4(5):905-909, 2004.
- An algorithm for computing nucleic acid base-pairing probabilities including pseudoknots J Comput Chem, 25:1295-1304, 2004.(pdf)
- Adjoint and defect error bounding and correction for functional estimatesJ Comput Phys, 200:769-794, 2004.(pdf)
- Paradigms for computational nucleic acid designNucleic Acids Res, 32(4):1392-1403, 2004.
- A partition function algorithm for nucleic acid secondary structure including pseudoknotsJ Comput Chem, 24(13):1664-1677, 2003.
- Exact rotamer optimization for protein designJ Comput Chem, 24(2):232-243, 2003.(pdf)
- Algorithm developments for discrete adjoint methodsAIAA J, 41(2):198-205, 2003.(pdf)
- Protein design is NP-hardProtein Engineering, 15(10):779-782, 2002.(pdf)
- Analytic adjoint solutions for the quasi-one-dimensional Euler equationsJ Fluid Mech, 426:327-345, 2001.(pdf)
- Conformational splitting: a more powerful criterion for dead-end eliminationJ Comput Chem, 21(11):999-1009, 2000.(pdf)
- Adjoint recovery of superconvergent functionals from PDE approximationsSIAM Rev, 42(2):247-264, 2000.(pdf)
- An introduction to the adjoint approach to designFlow Turb Comb, 65:393-415, 2000.(pdf)
- Optimum aerodynamic design using the Navier-Stokes equationsTheor Comput Fluid Dyn, 10:213-237, 1998.(pdf)
- Efficient computation of unsteady viscous flows by an implicit preconditioned multigrid methodAIAA J, 36(3):401-408, 1998.(pdf)
- Preconditioned multigrid methods for compressible flow calculations on stretched meshesJ Comput Phys, 136:425-445, 1997.(pdf)