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vocab list - Chandler Unified School District
... 61. *Transverse Wave – wave in which the direction of motion of the energy transfer (the wave) is perpendicular to the direction of motion of the particles of the medium (NOTE: light waves are transverse) (NOTE: transverse waves cannot be propagated in gases) 62. *Longitudinal Wave – wave in which t ...
... 61. *Transverse Wave – wave in which the direction of motion of the energy transfer (the wave) is perpendicular to the direction of motion of the particles of the medium (NOTE: light waves are transverse) (NOTE: transverse waves cannot be propagated in gases) 62. *Longitudinal Wave – wave in which t ...
Physical Science Unit 4 Energy ch
... a. C b. B c. E d. D e. A 23. Compare the gravitational potential energy of the ball at locations B and E, it is the same at both locations because a. the height is the same. c. the ball is traveling at the same velocity b. the kinetic energy has increased d. the potential energy has decreased 24. At ...
... a. C b. B c. E d. D e. A 23. Compare the gravitational potential energy of the ball at locations B and E, it is the same at both locations because a. the height is the same. c. the ball is traveling at the same velocity b. the kinetic energy has increased d. the potential energy has decreased 24. At ...
Newton`s first law of motion Inertial reference frame
... Two identical cars of mass m=1000 kg move toward each other with speeds v1=v2=30 m/s (~65 mph), collide head-on and stick together. CLICKER: During the collision, the total kinetic energy of the system consisting of these two cars: A. is conserved B. increases C. decreases ...
... Two identical cars of mass m=1000 kg move toward each other with speeds v1=v2=30 m/s (~65 mph), collide head-on and stick together. CLICKER: During the collision, the total kinetic energy of the system consisting of these two cars: A. is conserved B. increases C. decreases ...
2 Kinetic energy
... ~~=2ks=2~4~2=16m~s-~ v=4ms-' The result of the 16 J of work done on the 2 kg object is that it has acquired a speed of 4 m S-' (Figure 8). Now if I try to stop the object, I shall have to apply a force against its motion, i.e. do negative work on it. To look at this another way, the object will do p ...
... ~~=2ks=2~4~2=16m~s-~ v=4ms-' The result of the 16 J of work done on the 2 kg object is that it has acquired a speed of 4 m S-' (Figure 8). Now if I try to stop the object, I shall have to apply a force against its motion, i.e. do negative work on it. To look at this another way, the object will do p ...
What is Work and Energy?
... • When a 2.00 kg mass is attached to a vertical spring, the spring is stretched 10.0 cm such that the mass is 50.0 cm above the table • What is the gravitational potential energy associated with the mass relative to the table? • What is the spring’s elastic potential energy is the spring constant is ...
... • When a 2.00 kg mass is attached to a vertical spring, the spring is stretched 10.0 cm such that the mass is 50.0 cm above the table • What is the gravitational potential energy associated with the mass relative to the table? • What is the spring’s elastic potential energy is the spring constant is ...
On violations of Le Chatelier`s principle for a temperature change in
... relationship in 1993 by Evans et al.,8 and the derivation of the Evans-Searles TFT9 and the Gallavotti-Cohen FT10 provided greater insight into the basis of irreversibility and the Second Law of Thermodynamics, and motivated new research in the field. Subsequently, the Jarzynski Equality (JE)11 and ...
... relationship in 1993 by Evans et al.,8 and the derivation of the Evans-Searles TFT9 and the Gallavotti-Cohen FT10 provided greater insight into the basis of irreversibility and the Second Law of Thermodynamics, and motivated new research in the field. Subsequently, the Jarzynski Equality (JE)11 and ...
Q - Effingham County Schools
... The Celsius scale is useful for day-to-day measurements of temperature. It is not conducive for working on science and engineering problems, however, because it has negative temperatures ...
... The Celsius scale is useful for day-to-day measurements of temperature. It is not conducive for working on science and engineering problems, however, because it has negative temperatures ...
Chapter 2 PROPERTIES OF FLUIDS
... (also called the bulk modulus of compressibility or bulk modulus of elasticity) for fluids The coefficient of compressibility represents the change in pressure corresponding to a fractional change in volume or density of the fluid while the temperature remains constant. What is the coefficient of co ...
... (also called the bulk modulus of compressibility or bulk modulus of elasticity) for fluids The coefficient of compressibility represents the change in pressure corresponding to a fractional change in volume or density of the fluid while the temperature remains constant. What is the coefficient of co ...
Thermodynamics - Atmosphere Physics
... The 1/2mv2 is the kinetic energy of a molecule of mass m moving with a velocity v. There is ½ kT of energy “per degree of freedom” of the molecule. For a molecule moving in 3-dimensions, there are 3 degrees of freedom and thus the average kinetic energy is stored as 3/2kT. If there are other ways fo ...
... The 1/2mv2 is the kinetic energy of a molecule of mass m moving with a velocity v. There is ½ kT of energy “per degree of freedom” of the molecule. For a molecule moving in 3-dimensions, there are 3 degrees of freedom and thus the average kinetic energy is stored as 3/2kT. If there are other ways fo ...
chapter 1
... All bodies are made up of atoms, molecules or ions involved in an extremely intense movement with chaotic character called thermal motion. At equilibrium, the temperature of the body is a measure of the average kinetic energy of the constituent particles (molecules), i.e., a measure of the average s ...
... All bodies are made up of atoms, molecules or ions involved in an extremely intense movement with chaotic character called thermal motion. At equilibrium, the temperature of the body is a measure of the average kinetic energy of the constituent particles (molecules), i.e., a measure of the average s ...
Acutus Mens - Cobb Learning
... Chemical changes occur when one or more substances are changed into entirely new substances with new properties. Chemical properties determines whether chemical change will occur. 2. Change in color or odor, production of heat, fizzing and foaming, sound or light being given off, etc. 3. A chemical ...
... Chemical changes occur when one or more substances are changed into entirely new substances with new properties. Chemical properties determines whether chemical change will occur. 2. Change in color or odor, production of heat, fizzing and foaming, sound or light being given off, etc. 3. A chemical ...
Composition and Structure of Earth`s Interior
... – Mass: chemical diffusivity – Energy: thermal diffusivity – Momentum: viscosity – Electrons: electrical conductivity ...
... – Mass: chemical diffusivity – Energy: thermal diffusivity – Momentum: viscosity – Electrons: electrical conductivity ...
Acutus Mens first term 2010-2011
... Chemical changes occur when one or more substances are changed into entirely new substances with new properties. Chemical properties determines whether chemical change will occur. 2. Change in color or odor, production of heat, fizzing and foaming, sound or light being given off, etc. 3. A chemical ...
... Chemical changes occur when one or more substances are changed into entirely new substances with new properties. Chemical properties determines whether chemical change will occur. 2. Change in color or odor, production of heat, fizzing and foaming, sound or light being given off, etc. 3. A chemical ...
Energy - Bibb County Schools
... _____________: A measure of how hot (or cold) something is Specifically, a measure of the average ____________________ of the particles in an object. What is the relationship between the temperature of a substance and the speed of its molecules? High temperature = _____ KE (high or low)? Therm ...
... _____________: A measure of how hot (or cold) something is Specifically, a measure of the average ____________________ of the particles in an object. What is the relationship between the temperature of a substance and the speed of its molecules? High temperature = _____ KE (high or low)? Therm ...
Answer - whoawiki
... barrel if the forces are equal? - Although the forces are equal, they are acting on different objects. The bullet will accelerate from the gun barrel because the mass of the bullet is less than the mass of the rifle. ...
... barrel if the forces are equal? - Although the forces are equal, they are acting on different objects. The bullet will accelerate from the gun barrel because the mass of the bullet is less than the mass of the rifle. ...
n - Purdue Physics
... • Mass of 1 mole of “stuff” in grams = molecular mass in u ▪ E.g. 1 mole of N2 has mass of 2 14 = 28 grams ...
... • Mass of 1 mole of “stuff” in grams = molecular mass in u ▪ E.g. 1 mole of N2 has mass of 2 14 = 28 grams ...
GCE Physics - Thermodynamics Notes Word Document
... because of forces which act between the molecules. These are fairly negligible for a gas at lowish density, such as oxygen at room temperature and pressure, which is nearly ideal in behaviour. A-Level questions on gases will assume ideal behaviour! Even at low densities the factor of 3/2 in eq.2 is ...
... because of forces which act between the molecules. These are fairly negligible for a gas at lowish density, such as oxygen at room temperature and pressure, which is nearly ideal in behaviour. A-Level questions on gases will assume ideal behaviour! Even at low densities the factor of 3/2 in eq.2 is ...