Biotechnology and Biomedical Engineering : Amrita Vishwa Vidyapeetham Virtual Lab

 

saponification lab report

The white suspension formed is made up of soap and glycerol. The process of formation of soap is called saponification. Test using red and blue litmus papers shows that soap suspension is basic in nature and not acidic in nature. The process of precipitation of soap from the . Students understand the use of common salt in saponification process. Students understand the alkalies required for the preparation of hard and soft soaps. Students understand the procedure of saponification process. Students acquire the skill to perform the preparation of soap in a real lab. Lab Report Soap Making - Free download as Word Doc .doc /.docx), PDF File .pdf), Text File .txt) or read online for free. This is a laboratory report from the conducted experiment on soap making and covers the underlying chemistry principles of the saponification process.


Lab Report Soap Making | Soap | Sodium Hydroxide


Neurophysiology Virtual Lab pilot Neurophysiology is the study of nervous system function, saponification lab report. Primarily, it is connected with neurobiology, psychology, neurology, clinical neurophysiology, electrophysiology, biophysical neurophysiology, ethology, neuroanatomy, cognitive science and other brain sciences. Various experiments will deal with the several parameters of Hodgkin-Huxley equations and will model resting and action potentials, voltage and current clamp, pharmacological effects of drugs that block specific channels etc.

This lab complements some of the exercises in the Virtual Neurophysiology lab. Modeling resting potentials in Neurons Modeling action potentials Modeling the delayed rectifier Potassium channels Modeling the sodium ion channel and its effects on neural signaling Current Clamp protocol Voltage Clamp Protocol Understanding Frequency-Current relationship Understanding first spike latency - current relationship Voltage-Current VI plot Effects of pharmacological blockers on action potential Biochemistry Virtual Lab I Biochemistry is the study of the chemical processes in living organisms.

It deals with the structures and functions of cellular components such as proteins, carbohydrates, lipids, nucleic acids and other biomolecules.

The experiments included in Biochemistry Virtual Lab I are fundamental in nature, dealing with the identification and classification of various carbohydrates, acid-base titrations of amino acids, isolation of proteins from their natural sources, etc. Population ecology is the study of populations especially population abundance and how they change over time. Crucial to this study are the various interactions between a population and its resources.

Studies on simple models of interacting species is the main focus this simulation oriented lab, saponification lab report. Studies based on models of predation, saponification lab report, competition as seen in interacting species is the main focus this simulation oriented lab.

Lab II focuses on applied principles of population ecology for PG students. This includes eukaryotes such as fungi and, protists and prokaryotes. Viruses, though not strictly classed as living organisms, are also studied. This field overlaps with other areas of biology and chemistry, particularly saponification lab report and biochemistry.

Molecular biology chiefly concerns itself with understanding the interactions saponification lab report the various systems of a cell, including the interactions between DNA, saponification lab report, RNA and protein biosynthesis as well as learning how these interactions are regulated.

It includes the study of the structure and organization, growth, regulation, saponification lab report, movements and interaction of the cells. Cell biology is closely related to other areas of biology such as genetics, molecular biology, and biochemistry.

This virtual lab is an introductory course for undergraduate students and deals with the storage and retrieval of data from different biological databases like Gene, Pubmed, GEO, TAIR, Prosite etc. The exercises mainly deal with the different algorithms in sequence alignment and provides a computational exploration to the use of various tools used for sequence alignment.

This lab is targeted towards PG students with exercises that will allow one to learn visualising proteins in 3D, how to calculate distance saponification lab report atoms, saponification lab report, find active sites in protein structures and also delve into some structural analysis methods including docking and homology modeling.

Combining labs 1, 2 and 3 will give an overall understanding of commonly used computational methods in bioinformatics. Mathematical modeling and simulating of Biochemical network Import and simulate models from different databases To Import and simulate a model from the repository SBML-A markup language for mathematical models in systems saponification lab report using cell designer Creating and Visualizing a Simple Network Model Analysis of biological networks for feature detection Integrating Biological Networks and Microarray Expression data Analyzing the network by finding sub modules Computer-Aided Drug Design Virtual Lab This lab is for PG students on the various laboratory topics in computer-aided drug design.

Constructing computational model of a molecule Introducing Hydrogen atoms to a molecule Dihedral angle calculation of a molecule Energy minimization of a molecule Predict the structure of protein-Homology Modeling Drug-Receptor Interaction Absorption and Distribution Property Prediction in Drug Designing Process Toxicity prediction of a Molecule Ecology Virtual Lab Ecosystems are a complex and delicate balancing game.

Ecosystems have an extremely complex web of cause and effect. The addition or removal of one species affects many other species with which it might compete for,or provide food, saponification lab report.

The focus is on practical skills in using simple electronics to reinforce application of bio-inspired ideas, saponification lab report. Many experiments will help saponification lab report towards thesis projects. Controlling a servo motor in a bio-robotic environment Remote Trigger Understanding the kinematics of a robotic upper arm Remote Trigger Understanding the kinematics of a robotic upper arm - Interactive Remote Trigger Light sensing process in a neural circuit Remote Trigger Pattern recognition in a hardware neural network Remote Trigger Mechanism behind the movement of a Walker robot with 4 neurons Remote Trigger Interaction study with Neuronal Circuits Constructing a six core brain like circuit Remote Trigger Virtual Biophysics Lab Remote Trigger This lab will provide an online experience via remote equipment to study biophysics and biophysical techniques.

Neuron Simulation Virtual Lab pilot This lab uses a graphical saponification lab report Neuron simulator and models a section of excitable neuronal membrane using the Hodgkin-Huxley equations. Modeling resting potentials in Neurons Modeling action potentials Modeling the delayed rectifier Potassium channels Modeling the sodium ion channel and its effects on neural signaling Current Clamp protocol Voltage Clamp Protocol Understanding Frequency-Current relationship Understanding first spike latency - current relationship Voltage-Current VI plot Effects of pharmacological blockers on action potential.

Biochemistry Virtual Lab I Biochemistry is the study of the chemical processes in living organisms. Biochemistry Virtual Lab II Biochemistry Virtual Lab II deals with topics like enzymology, purification of plant pigments and natural products as well as estimation of iodine value and saponification value of fats and oils. Population ecology Virtual Lab I A population is a collection of individuals of the same species that live together in a region, saponification lab report.

Population ecology Virtual Lab II Population ecology is the study of populations especially population abundance and how they change over time, saponification lab report. Immunology Saponification lab report Lab I The branch of biomedicine concerned with the structure and function of the immune system, innate and acquired immunity, the bodily distinction of self from no self, and laboratory techniques involving the interaction of antigens with specific antibodies.

Immunology Virtual Lab II The branch of biomedicine concerned with the structure and function of the immune system, innate and acquired immunity, the bodily saponification lab report of self from no self, and laboratory techniques involving the interaction of antigens with specific antibodies. Microbiology Virtual Lab I The study of microorganisms, saponification lab report, which are unicellular or cell-cluster microscopic organisms.

Microbiology Virtual Lab II To study the biochemical properties of microorganisms, the various techniques employed in cultivation of fungi and viruses along with the molecular level analysis of microbial genome. Cell biology Virtual Lab I Cell biology is an exciting and dynamic area that helps discover the fascinating world of cells. Cell biology Virtual Lab II Cell biology is an exciting and dynamic area that helps discover the fascinating world of cells.

Bioinformatics Virtual Lab I Bioinformatics is a field which using techniques of informatics to gather, store, analyse and integrate biological data. Bioinformatics Virtual Lab II This virtual laboratory is for undergraduate and postgraduate students to get a deeper understanding on the analysis of sequence data, its alignment and the evolutionary relationship.

Mathematical modeling and simulating of Biochemical network Import and simulate models from different databases To Import and simulate a model from the repository SBML-A markup language for mathematical models in systems biology using cell designer Creating and Visualizing a Simple Network Model Analysis of biological networks for feature detection Integrating Biological Networks and Microarray Expression data Analyzing the network by finding sub modules. Constructing computational model of a molecule Introducing Hydrogen atoms to a molecule Dihedral angle calculation of a molecule Energy minimization of a molecule Predict saponification lab report structure of protein-Homology Modeling Drug-Receptor Interaction Absorption and Distribution Property Prediction in Drug Designing Process Toxicity prediction of a Molecule.

Ecology Virtual Lab Ecosystems are a complex and delicate balancing game, saponification lab report. Bio-inspired Robotics Virtual Labs Remote Trigger This remote-triggerable online laboratory will teach experiments and offer to introduce biorobotics and neuronal robot techniques. Controlling a servo motor in a bio-robotic environment Remote Trigger Understanding the kinematics of a robotic upper arm Remote Trigger Understanding the kinematics of a robotic upper arm - Interactive Remote Trigger Light sensing process in a neural circuit Remote Trigger Pattern recognition in a hardware neural network Remote Trigger Mechanism behind the movement of a Walker robot with 4 neurons Remote Trigger Interaction study with Neuronal Circuits Constructing a six core brain like circuit Remote Trigger.

Virtual Biophysics Lab Remote Trigger This lab will provide an online experience via remote equipment to study biophysics and biophysical techniques.

Online questionnaire for nodal centres This is a supplementary quiz series for nodal centres.

 

Making Soap - Saponification (Experiment) - Chemistry LibreTexts

 

saponification lab report

 

Report. Experimental Observations. The saponification reaction occurs between an acid and a base, shown in the figure in the procedure. In the reaction you performed, what is the acid and what is the base? During lab section, why did the saponification reaction require the long period of stirring? Students understand the use of common salt in saponification process. Students understand the alkalies required for the preparation of hard and soft soaps. Students understand the procedure of saponification process. Students acquire the skill to perform the preparation of soap in a real lab. View Lab Report - Organic Lab Report 7 from CHEM at Auburn University. Experiment # 9 Saponification of Fat: The Preparation of Soap from Shortening Fallon 87%(39).