1. 2. 3. What are the reasons behind in the spontaneous changes of the above situations ? | Attainment of low energy state | | Endothermic heat flowIncrease in entropy | | Exothermic heat flow | Entropy- degree of disorderliness The rationale of an spontaneous change are
Premium Thermodynamics Entropy Energy
energy by breaking down food (bimolecular). * Anabolic pathways: use energy to build molecules. Second law of thermodynamic * The degree of disorder in isolated systems or universe only increases * Entropy is a measure of disorder within a system * A positive entropy change spontaneously favors a reaction (if this reaction makes S increases‚ it’s favored) * (translates as “releasing heat to the sea surrounding the system * It takes energy to be organized lol * A cell
Premium Energy Entropy Thermodynamics
11 Using Energy © 2010 Pearson Education‚ Inc. Slide 1 © 2010 Pearson Education‚ Inc. Slide 2 © 2010 Pearson Education‚ Inc. Slide 3 © 2010 Pearson Education‚ Inc. Slide 4 Reading Quiz 1. A machine uses 1000 J of electric energy to raise a heavy mass‚ increasing its potential energy by 300 J. What is the efficiency of this process? A. B. C. D. E. 100% 85% 70% 35% 30% © 2010 Pearson Education‚ Inc. Slide 5 Reading Quiz 2. When the temperature of an ideal
Premium Energy Temperature Heat
Chemistry Gen: Course Description Year 2 PART - II CGT 21a Unit I. Basic physical chemistry I * Gaseous state: Gas laws‚ kinetic theory of gas‚ collision and gas pressure derivation of gas laws from kinetic theory‚ average kinetic energy of translation. Boltzmann constant and absolute scale of temperature‚ Maxwell’s distribution law of molecular speeds (without derivation)‚ most probable‚ average and root mean square speed of gas molecules‚ principle of equipartition of energy (without
Premium Thermodynamics Entropy Temperature
~ Indian Institute of Technology Kharagpur Department of Chemistry Spring 2011-2012 Mid-semester Exam Time: 2 Hrs No. of Students: 700 Subject No: CY11001 Full Marks: 30 Subject Name: Chemistry (1st Year) Instructions: (a) Attempt ALL the questions. (b) All parts of a question MUST be answered together. (c) Numerical results MUST be reported in SI units. (d) Explicitly mention the sign convention used. (e) Clearly state whether you are using oxidation or reduction potentials in
Premium Pressure Thermodynamics Temperature
standard entropy and give a reason why: 1 mole each of NO and NO2 ? ANS: Both NO and NO2 are gases under standard conditions. Each molecule of NO2 has three atoms‚ and each molecule of NO has two atoms. Thus‚ NO2 should have the larger standard molar entropy than NO. Molecules with many atoms has more variations in how it can vibrate than a molecule with fewer atoms. This means more ways to distribute energy- or greater energy dispersal at any given temperature and larger entropy. A2.
Premium Thermodynamics Chemical kinetics Chemical reaction
Strontium Manganese Oxide Introduction The ternary inter oxide SrMnO3 was first characterized by XRD by Negas and Roth []. This perovskite type inter oxide crystallizes in the hexagonal form with the space group P63/mmC(194). This inter oxide is of considerable interest to materials scientists owing to its ability to accommodate a high degree of anion vacancies‚ crystal structure and its high Neel Temperature (TN). It also exhibits polymorphism with two different cubic and hexagonal structures
Premium Electrochemistry Entropy Oxygen
Cellular Respiration Purpose The purpose of this experiment was to determine the effect of body mass and temperature on the rate of respiration in the mouse. Hypothesis When the temperature is reduced‚ cellular respiration will increase. Measurement Weight the mouse and use soda lime for mouse to perspire. Oxygen was inhaled and carbon dioxide was exhaled. Carbon dioxide was absorbed by soda lime. Rate of respiration was measured in terms of ml of oxygen per min over grams. General
Premium Entropy Carbon dioxide Oxygen
This paper is about how the plant cells and solar cells are similar to each other as well as how they are different to one another. In addition this paper explains how the laws of thermodynamics apply to each of the plant and solar cells system. Plant Cells and Solar Cells Photosynthesis is the process of producing and releasing oxygen in the air. It needs sunlight‚ carbon dioxide and
Premium Energy Thermodynamics Photosynthesis
change of standard entropy. THEORY Free energy is a state function that expresses the spontaneity of a chemical process in term of enthalpy and entropy change of a system under conditions of constant temperature and volume (Hemholtz free energy) and constant temperature and pressure (Gibbs free energy). It is a quantity of non-pressure-and-volume work that a system can perform. Gibbs free energy also known as Gibbs function. G = H – TS ‚ where H‚ S and T denote enthalpy‚ entropy and temperature
Premium Thermodynamics Energy Entropy