LakeSuperior_EC
LakeSuperior_EC

... Figure 4. Radiation balance (all in W m-2). Blue lines are downwards; green are upwards; except for net radiation. Most (nearly all) of the net radiation (which is large) is due to the incident short-wave radiation. Assuming an albedo of 0.07, the net short-wave is huge, and the net long-wave is sma ...
Chapter 3 Calorimetry - Specific Heat and Latent Heat
Chapter 3 Calorimetry - Specific Heat and Latent Heat

... The temperature of a system is closely related to its internal thermal energy. In general, this thermal energy can be described in terms of several macroscopic thermodynamic variables such as temperature and pressure. A decrease in an object’s temperature represents a decrease in the object’s therma ...
Lab 15. Heat Capacity
Lab 15. Heat Capacity

... The function of an adiabatic wall is to totally prevent thermal transfer through the walls of the system. In an adiabatic process, the change in internal energy is equal an opposite to the work performed. Unfortunately, the tube we used in the experiment was an open system. The result is that heat e ...
Chemistry Quiz #2 Study Guide (Answers)
Chemistry Quiz #2 Study Guide (Answers)

... • Endothermic Reaction – Energy (heat) entering a reaction (melting, sublimation, evaporation) • Exothermic Reaction – Energy (heat) leaving a reaction (condensation, solidification, deposition) 2. What is the Kinetic Molecular Theory? The theory that all molecules are in constant motion. ...
Conservation of Energy
Conservation of Energy

... 3. A 55 kg fat toddler slides down a slide that is 5.0m high. If his/her speed at the bottom is 2.9m/s how much heat was generated? ...
Introduction to Thermochemistry - stpats-sch4u-sem1-2013
Introduction to Thermochemistry - stpats-sch4u-sem1-2013

... object to another due to temperature differences i.e. from a hot object to a cold object • An object possesses thermal energy but it does not possess heat • When referring to heat, i.e. the transfer of thermal energy, the terms “heat absorbed” and “heat released” are used ...
Introduction to Thermochemistry
Introduction to Thermochemistry

... object to another due to temperature differences i.e. from a hot object to a cold object • An object possesses thermal energy but it does not possess heat • When referring to heat, i.e. the transfer of thermal energy, the terms “heat absorbed” and “heat released” are used ...
Chapter 3: Matter and Energy
Chapter 3: Matter and Energy

... For a hot day, 101°F, convert this to C: Well, 101°F is 69°F from the freezing point of water. This will translate into 69 x 9/5 = 38°C from the freezing point in C which is 38°. In math terms: C = (F-32) x 5/9 = 38°C You may notice that in math, we did exactly the opposite in exactly the opposite ...
Slide 1
Slide 1

... A sample of a metal with a mass of 212 g is heated to 125.0oC and then dropped into 375 g of water at 240.0oC. If the final temperature of the water is 34.2oC, what is the specific heat of the metal? When the metal enters the water, it begins to cool, losing heat to the water. At the same time, the ...
8.3 Temperature and Heat Heat Transfer Heat Flow
8.3 Temperature and Heat Heat Transfer Heat Flow

... A storage shed is made out of two layers of plywood each ℜ=0.65, and a layer of ℜ-11 fiberglass. The total area of the shed is 1200 ft2. If the shed is heated to a temperature of 65oF when the outside temperature is 40oF. How much does it cost per month to heat the shed with gas at the price of $1.2 ...
FREEZING – is the change of a liquid to a solid. Freezing occurs
FREEZING – is the change of a liquid to a solid. Freezing occurs

... Solids, Liquids, and Gases ...
P1 revision fact sheet
P1 revision fact sheet

... Heat energy is transferred in one of 3 ways - conduction – vibrating particles pass on their energy to the particles next to them. The main form of heat transfer in solids - convection – particles with the most energy move from the hotter place to the cooler place and take their heat energy with the ...
Energy and Heat
Energy and Heat

... Kinetic Energy… can also be called energy of motion. When this locomotive engine uses the coal, it becomes energy of motion. ...
Advantages of Plate-Type Heat Exchanger over Tube-Type
Advantages of Plate-Type Heat Exchanger over Tube-Type

... Advantages of Plate-Type Heat Exchanger over Tube-Type Heat Exchanger for OTEC Power Plant Tomohiro Mitsumori, Yasuyuki Ikegami and Haruo Uehara OTEC Laboratory, Saga University, Saga, Japan INTRODUCTION A high-performance heat exchanger should be used in the evaporator and condenser of Ocean Therma ...
1 - mrfiust
1 - mrfiust

... In the demonstration, a heated 0.06 kg copper pipe was dropped into a beaker of water. Students in the class were asked to predict the final temperature of the beaker of water when it reached equilibrium with the copper pipe. a. If this demonstration took place in a closed insulated beaker, instead ...
Werribee Centrals FNC in conjunction with AFL AND
Werribee Centrals FNC in conjunction with AFL AND

... unfavourably expose players to the risk of heat stress. In the event any player is showing signs of heat exhaustion or heat stroke the senior most trainer at the session/game has the power to remove the player from that training session/game until he/she is satisfied of their recovery. Signs of Heat ...
SCIENCE AND TECHNOLO GY: FULL HEAD OF STEAM
SCIENCE AND TECHNOLO GY: FULL HEAD OF STEAM

... How does water change from a liquid to gas or to a solid? Wait for answers. Water changes states, the way it looks and how it behaves when heat is added, like warming it up, or when heat is taken away, like putting something outside in the winter or in the freezer. How many people have seen the ice ...
Thermochemistry: study of the relationships between chemistry and
Thermochemistry: study of the relationships between chemistry and

...  Kinetic energy: energy of motion □ Thermal energy: energy associated with temperature, transferred by heat  Potential energy: energy of position or ...
Final Exam for Physics/ECE 176 Professor
Final Exam for Physics/ECE 176 Professor

... horizontal axis is temperature T ≥ 0 and the vertical axis is entropy S ≥ 0, then the physical meaning of the area enclosed by the cycle on the T − S plane is (a) the total work done on the gas. (b) the total heat transferred to the gas. (c) the total entropy change associated with the two isotherma ...
Lecture PPT - Carol Lee Lab
Lecture PPT - Carol Lee Lab

... phosphorylation from electron transport in the mitochondria Allows energy to be released as heat rather than stored as ATP More prominent in coldadapted mammals, hibernators, newborns ...
Reversible and irreversible Processes
Reversible and irreversible Processes

... Reversible process: can be defined as one whose “direction” can be reversed by an infinitesimal small change in some property of the system. “Gedankenexperiment” to picture a reversible process: ...
CYL110
CYL110

... When a system is at equilibrium, its state is defined entirely by the state variables, and not by the history of the system. The properties of the system can be described by an equation of state which specifies the relationship between these variables. ...
Silicone Heat Transfer Compound
Silicone Heat Transfer Compound

... reliable thermal coupling of electrical and electronic components is required or between any surface where thermal conductivity of heat dissipation is important. A full range of heat transfer products are available from Electrolube. This range includes non-silicone based pastes (HTC), a RTV rubber ( ...
Thermal Energy & Heat THERMAL ENERGY & MATTER
Thermal Energy & Heat THERMAL ENERGY & MATTER

... Which type of material heats more, one with a high specific heat, or one with a low specific heat? Is WORK 100% efficient? How do you know? ...
Heat Transfer There are three mechanisms for the transfer of heat
Heat Transfer There are three mechanisms for the transfer of heat

... heat production, how does the geotherm look like? If there’s nonzero net heat flow per unit area out of the slab, this heat must be generated internally in the slab. In that case: d2 t q(y + δy) − q(y) = δy(−k 2 ) = δyρH, dy where: H is the heat production rate per unit mass ρ is density Question: w ...

Economizer

Economizers (US and Oxford spelling), or economisers (UK), are mechanical devices intended to reduce energy consumption, or to perform useful function such as preheating a fluid. The term economizer is used for other purposes as well. Boiler, power plant, heating, ventilating, and air conditioning (HVAC) uses are discussed in this article. In simple terms, an economizer is a heat exchanger.