Oxygen is a waste product and is removed form the cell.

Introduction to the state of the art in computing focusing on hardware and its architecture, operating systems, memory management, standard programming language and programmable software environment (PSE); Machine representation of numbers and characters. IEEE Floating point numbers; ASCII characters. Variables and Types; I/O Functions and Formating; Arithmetic Operators; Forming Arithmetic Expressions; Using Variables and Arithmetic Operators and Built-In Library Functions; Operators for Implementing Decision Making; Logical expressions and control; Implementing Loops and Repetitive Processes; Tools for Modular Programming; Data Sharing/Passing Mechanisms; Functions, Pointers, Arrays, Structures Strings; File and Disk I/O Operations; Introduction to selected PSE platform, basic programming, execution and debugging; Iteration using variants of loops; Writing script Files and Creation of User-defined Functions; Flow control statements; Data Structures and Management; Scientific Visualization; Interfacing hardware with PSE; Notions of Parallel Processing.

The video is very informative and makes good use of graphics to ...

Students use the words to put out a word and symbol equation for photosynthesis

The video is very informative and makes good use ...

Fundamentals: The concepts and development of supramolecular chemistry: classification of receptors, binding constant, conformational and macrocyclic effects, pre-organization and complementarities, Nature of supramolecular interactions (types of non-covalent interactions); Supramolecular chemistry of life: porphyrins & tetrapyrrolemacrocycles, transport of oxygen by haemoglobin; Molecular and Ionic recognition: (cation& anion binding host, effect of pH), crown ethers, cryptands, spherands, calixarenes.

The basic equation for photosynthesis is deceptively simple.

This is an advanced course once the students are familiar with basic synthetic chemistry principles. Reactions of heterocyclic compounds (which form the basic skeleton of natural products) includes imidazoles, oxazoles, thiazoles, pyridazines, pyrimidines and pyrazines, terpenes, alkaloids, antibiotics, carbohydrates, vitamins, nucleic acids and proteins. This course will also offer biosynthetic pathway of some important natural products.

Balanced Photosynthesis Equation.

This desire to discover new ways of producing clean energy has lead scientists at Stanford University and other universities to discover a way to harness the electricity produced during the process of photosynthesis.

which is the time for the reactants to be formed into the products.

The word equation for photosynthesis is: Light [IMAGE]Carbon Dioxide + Water Glucose + Oxygen Chlorophyll Although most of the glucose produced is converted into insoluble starch for storage in the stem, leaves or roots, some is used immediately by the plant to provide via respiration....

The pyyruvate formed in glycolysis is broken down into lactic acid.

Molecular partition functions, Translational, rotational and vibrational partition functions. Influence of degeneracy on the partition function: Application to atoms and molecules; Molecular symmetry and relationship with partition function. e.g. How to treat NH3 vs SO3; Ideal monoatomic and diatomic gases, Classical partition functions, thermodynamic properties, Entropy, Equipartition theorem; Chemical equilibrium. Relationship between equilibrium constant and partition function. Application to chemical reactions like formation of H2O; Real gases, intermolecular potential and virial coefficients. Debye and Einstein theory of heat capacity of solids. Structure and thermal properties of liquids, Pair correlation functions.

equation/reaction for photosynthesis and cellular respiration ?

Both animals and plants use this oxygen to oxidise food in a process called aerobic respiration which transfers the energy that the organism needs to perform its functions.

start the photosynthesis process for another year.

Basic modes of catalytic action, Classification and key concepts; Practical applications and Economic impact; Auto catalysis; Bio catalysis; Electro catalysis and Photo catalysis,
Materials Perspective
Desired characteristics, nature of the active site, metal support interaction, lattice oxygen and defect; Adsorption, adsorption mechanisms and models; Oxides, noble metals, and other materials as catalysts; Synthesis and Characterization of catalysts; Analytical techniques; Supports, Dopes, Alloys, Core-shell, Nanoparticles.
Screening of catalysts
Scientific and Engineering considerations
Kinetics of Catalytic Reactions
Strategies and designs for laboratory studies; Development of basic forms of rate equations.
Deactivation and poisoning
Mechanisms, models and design strategies