Introduction to Thermodynamics
... L1: dU = dQ - PdV L2: dQ ≤ TdS dG = dU + PdV + vdP - TdS - SdT Substitute L1, take constant P,T dG = dQ - TdS This is always less than zero by L2. ...
... L1: dU = dQ - PdV L2: dQ ≤ TdS dG = dU + PdV + vdP - TdS - SdT Substitute L1, take constant P,T dG = dQ - TdS This is always less than zero by L2. ...
Targets: * I can identify different forms of energy. (Review Quizlet
... Categorize each energy form as Potential, Kinetic or Both ...
... Categorize each energy form as Potential, Kinetic or Both ...
Work, Power and Energy
... g. A 0.05 kg bullet has a velocity of 200 m/s as it leaves the barrel of a gun, what is energy the bullet possesses? ...
... g. A 0.05 kg bullet has a velocity of 200 m/s as it leaves the barrel of a gun, what is energy the bullet possesses? ...
J S U N I L T U... 9th Work and Energy
... A constant force of 10N displaces a body through 5 m. Find the work done by the force? What will be the work done if a stone of mass 2 kg is raised through a height of 10cm? What are the conditions needed for work to be done? An object of mass 10kg is moving with speed 4 m/sec. What is the kinetic e ...
... A constant force of 10N displaces a body through 5 m. Find the work done by the force? What will be the work done if a stone of mass 2 kg is raised through a height of 10cm? What are the conditions needed for work to be done? An object of mass 10kg is moving with speed 4 m/sec. What is the kinetic e ...
Midterm Examination
... (a) If 11.0 mol of an ideal gas is put into the tank at a temperature of 23.00C, to what temperature can the gas be warmed before the tank ruptures? You can ignore the thermal expansion of the tank. (b) Based on your answer to part (a), is it reasonable to ignore the thermal expansion of the tank? E ...
... (a) If 11.0 mol of an ideal gas is put into the tank at a temperature of 23.00C, to what temperature can the gas be warmed before the tank ruptures? You can ignore the thermal expansion of the tank. (b) Based on your answer to part (a), is it reasonable to ignore the thermal expansion of the tank? E ...
Energy and Matter Notes
... A. Energy: The capacity to do ____________ or produce ______________. 1. 7 types of energy: 2. Kinetic Energy: Energy of _______________ Ex. 3. Potential Energy: _______________Energy; Determined by ___________________. Ex. 4. Energy can be __________________ from a system to its surroundings. Ex) 5 ...
... A. Energy: The capacity to do ____________ or produce ______________. 1. 7 types of energy: 2. Kinetic Energy: Energy of _______________ Ex. 3. Potential Energy: _______________Energy; Determined by ___________________. Ex. 4. Energy can be __________________ from a system to its surroundings. Ex) 5 ...
Kinetic Energy
... Types of Energy Scavenger Hunt Learning Goal: I can define and identify 9 different types of energy. Below is a list of different types of energy that you should be familiar with. You will be assigned one type of energy to become an expert on. Using the internet or book, provide a definition and 2 e ...
... Types of Energy Scavenger Hunt Learning Goal: I can define and identify 9 different types of energy. Below is a list of different types of energy that you should be familiar with. You will be assigned one type of energy to become an expert on. Using the internet or book, provide a definition and 2 e ...
Conservation of Energy Worksheet Name ______________________ 1)
... The boulder begins to fall. What is its potential energy when it is 500-m above the ground? Where did the “lost” potential energy go? ...
... The boulder begins to fall. What is its potential energy when it is 500-m above the ground? Where did the “lost” potential energy go? ...
2 2(9.80 )(20.4 ) 20.0 vgym = ∆ = = 92 12 7.6 JFN m
... constant. PE at top = KE at bottom of cliff, just before impact. KE = 21400 J c. How fast will the rock be moving at this point? mgy = ½ mv2 v 2 g y 2(9.80 m s2 )(20.4m) 20.0 m s ...
... constant. PE at top = KE at bottom of cliff, just before impact. KE = 21400 J c. How fast will the rock be moving at this point? mgy = ½ mv2 v 2 g y 2(9.80 m s2 )(20.4m) 20.0 m s ...
CT8b
... CT8-8. A mass slides down a frictionless ramp of height h and hits a carpet with kinetic friction coefficient K = 1.0. Its initial speed is zero. How far does the mass slide along the carpet? ...
... CT8-8. A mass slides down a frictionless ramp of height h and hits a carpet with kinetic friction coefficient K = 1.0. Its initial speed is zero. How far does the mass slide along the carpet? ...
Chapter 15 Notes - Valdosta State University
... Thermodynamics is the branch of physics that deals with the laws that govern the relationships between heat and work. Since heat is a form of energy and work is the mechanism by which energy is transferred, these laws are based on the basic principles that govern the behavior of other types of energ ...
... Thermodynamics is the branch of physics that deals with the laws that govern the relationships between heat and work. Since heat is a form of energy and work is the mechanism by which energy is transferred, these laws are based on the basic principles that govern the behavior of other types of energ ...
Energy Transformations
... 15. A rock is at the top of a 20 meter hill. The rock has a mass of 10 kg. How much potential energy does it have? ...
... 15. A rock is at the top of a 20 meter hill. The rock has a mass of 10 kg. How much potential energy does it have? ...
Assignment 1
... 6.The molecules of a gas have two states of internal energy with statistical weights g1, g2 and energies 0, ε respectively. Calculate the contribution of these states to the specific heat of the gas. ...
... 6.The molecules of a gas have two states of internal energy with statistical weights g1, g2 and energies 0, ε respectively. Calculate the contribution of these states to the specific heat of the gas. ...
File
... One type of PE is called gravitational PE depends on the mass and height of object (GPE = m*9.8*h OR GPE = w * h) Ex: A skydiver has more GPE on the plane than ...
... One type of PE is called gravitational PE depends on the mass and height of object (GPE = m*9.8*h OR GPE = w * h) Ex: A skydiver has more GPE on the plane than ...
Review of Work and Energy
... When kinetic friction or drag does work, mechanical energy is converted into heat energy. When any other non-conservative force does work, energy is converted from some form into mechanical energy if W NC is positive, and energy is converted from mechanical to some other form (usually heat) if W NC ...
... When kinetic friction or drag does work, mechanical energy is converted into heat energy. When any other non-conservative force does work, energy is converted from some form into mechanical energy if W NC is positive, and energy is converted from mechanical to some other form (usually heat) if W NC ...
Physics Chapter 5 Vocabulary Section 1 Energy: the ability to do
... Energy: the ability to do work ...
... Energy: the ability to do work ...