ENERGY
... All forms of energy can be classified as Kinetic or potential. The two basic states of energy. So, what’s the difference? ...
... All forms of energy can be classified as Kinetic or potential. The two basic states of energy. So, what’s the difference? ...
CHAPTER 6: THERMAL ENERGY
... temperature than the butter, molecules in the air have more KE than the butter molecules. Energy is transferred from faster-moving molecules in the air to slower-moving butter molecules. ...
... temperature than the butter, molecules in the air have more KE than the butter molecules. Energy is transferred from faster-moving molecules in the air to slower-moving butter molecules. ...
Experiment 13 Elastic Potential Energy of a Stretched
... smooth curve has been fitted to the individual data points. Typically, this graph will have a linear section near the origin, (once the slack is taken out of the rubber). This is known as the elastic region, where Hooke's Law holds for small elongations. f ...
... smooth curve has been fitted to the individual data points. Typically, this graph will have a linear section near the origin, (once the slack is taken out of the rubber). This is known as the elastic region, where Hooke's Law holds for small elongations. f ...
Thermodynamics: Heat and Work
... work. Doing work on the gas increases its internal energy in the form of heat. • Expanding gasses are doing work (either pushing other gasses out of the way or pushing the walls of its container out) and losing energy. ...
... work. Doing work on the gas increases its internal energy in the form of heat. • Expanding gasses are doing work (either pushing other gasses out of the way or pushing the walls of its container out) and losing energy. ...
Gravitational Potential Energy
... Work done = Force (N) x Distance Moved (M) The distance is always in the direction of the force. It is measured in Joules (J). 1 joule is the work done when a force of 1 newton moves through 1 metre (in the direction of the force). Forms of energy Thermal energy = The movement energy of the molecule ...
... Work done = Force (N) x Distance Moved (M) The distance is always in the direction of the force. It is measured in Joules (J). 1 joule is the work done when a force of 1 newton moves through 1 metre (in the direction of the force). Forms of energy Thermal energy = The movement energy of the molecule ...
Kinetic and Potential energy
... • Create a comic strip that either discusses the differences between – Kinetic energy and potential energy (include equations) – Newton’s 3 laws of motion ...
... • Create a comic strip that either discusses the differences between – Kinetic energy and potential energy (include equations) – Newton’s 3 laws of motion ...
Chapter 11 Questions/STUDY GUIDE
... is lifted in the air to be placed into an aquarium tank. Calculate the gravitational potential energy needed to lift the dolphin 3 m into the air. ...
... is lifted in the air to be placed into an aquarium tank. Calculate the gravitational potential energy needed to lift the dolphin 3 m into the air. ...
How does a Roller Coaster work?
... centrifugal force, a force pushing them toward the outer edge of the car. The following equation expresses centripetal acceleration (to make it centripetal force simply multiply by the mass): ...
... centrifugal force, a force pushing them toward the outer edge of the car. The following equation expresses centripetal acceleration (to make it centripetal force simply multiply by the mass): ...
Energy Efficiency
... • Energy is transferred in natural processes. The study of these transfers is known as thermodynamics. While there are three laws, the only two that we’ll be using are the first and the second. Here is a summary: The First Law: Energy is neither created nor destroyed as it moves through natural sys ...
... • Energy is transferred in natural processes. The study of these transfers is known as thermodynamics. While there are three laws, the only two that we’ll be using are the first and the second. Here is a summary: The First Law: Energy is neither created nor destroyed as it moves through natural sys ...
My Work and Energy PPT(not used in class but very
... The amount of work that can be done on an object, is equal to the amount of kinetic energy or potential energy it gains or loses: ...
... The amount of work that can be done on an object, is equal to the amount of kinetic energy or potential energy it gains or loses: ...
Notes for Work and Energy
... on the frictionless track shown above. Determine a) the particle’s speed at the points B and C and b) the net work done by the force of gravity in moving the particle from A to C ...
... on the frictionless track shown above. Determine a) the particle’s speed at the points B and C and b) the net work done by the force of gravity in moving the particle from A to C ...
Sect. 2.5 - TTU Physics
... The Work done on the particle in moving it from (arbitrary) position 1 to (arbitrary) position 2 in space is defined as line integral (limits from 1 to 2): W12 ∫ Fdr • By Newton’s 2nd Law (using chain rule of differentiation): Fdr = (dp/dt)(dr/dt) dt = m(dv/dt)v dt = (½)m [d(vv)/dt] dt = (½)m ...
... The Work done on the particle in moving it from (arbitrary) position 1 to (arbitrary) position 2 in space is defined as line integral (limits from 1 to 2): W12 ∫ Fdr • By Newton’s 2nd Law (using chain rule of differentiation): Fdr = (dp/dt)(dr/dt) dt = m(dv/dt)v dt = (½)m [d(vv)/dt] dt = (½)m ...
Honors Physics – 1st Semester Exam Review
... a. How to draw and interpret them b. Frame of reference x vs. t, v vs. t, a vs. t graphs a. finding equation that describes a linear graph b. converting among graphs c. converting between graphs and verbal descriptions d. converting between graphs and strobe diagrams/motion maps e. slope of x vs. t ...
... a. How to draw and interpret them b. Frame of reference x vs. t, v vs. t, a vs. t graphs a. finding equation that describes a linear graph b. converting among graphs c. converting between graphs and verbal descriptions d. converting between graphs and strobe diagrams/motion maps e. slope of x vs. t ...
The Energy of Sports – A Flip Chart Name: Class Period
... Start the answer by restating the question. Listen in class for examples. CARD 1 : kinetic energy = what are three examples of kinetic energy CARD 2 : potential energy = What is an example of potential energy? Is it gravitational of elastic and how do you know? CARD 3: Law of Conservation of Energy: ...
... Start the answer by restating the question. Listen in class for examples. CARD 1 : kinetic energy = what are three examples of kinetic energy CARD 2 : potential energy = What is an example of potential energy? Is it gravitational of elastic and how do you know? CARD 3: Law of Conservation of Energy: ...
Powerpoint
... Kf Uf Eth Ki Ui A few things to note: • Work can be positive (work in) or negative (work out) • We are, for now, ignoring heat. • Thermal energy is…special. When energy changes to thermal energy, this change is irreversible. ...
... Kf Uf Eth Ki Ui A few things to note: • Work can be positive (work in) or negative (work out) • We are, for now, ignoring heat. • Thermal energy is…special. When energy changes to thermal energy, this change is irreversible. ...
Physics 111
... Linear and Rotational Mechanics: Logical Structure NEWTONIAN MECHANICS forces & torques cause changes in the motion TRANSLATIONAL DYNAMICS movement from one place to another ...
... Linear and Rotational Mechanics: Logical Structure NEWTONIAN MECHANICS forces & torques cause changes in the motion TRANSLATIONAL DYNAMICS movement from one place to another ...
