No Slide Title
... A body of mass 30 kg is projected vertically upwards with an initial velocity of 20 m/s. What is the initial kinetic energy of the body and to what height will it rise? ...
... A body of mass 30 kg is projected vertically upwards with an initial velocity of 20 m/s. What is the initial kinetic energy of the body and to what height will it rise? ...
Conservation of Energy on a Roller Coaster Introduction
... Substitute in for all of the above values, leaving vf as your unknown. After that substitution, you can do all of the other math in your calculators and just give the final answer for vf (calculator and sig fig rounded). As mentioned in class, you should probably do these on BLANK white paper and ho ...
... Substitute in for all of the above values, leaving vf as your unknown. After that substitution, you can do all of the other math in your calculators and just give the final answer for vf (calculator and sig fig rounded). As mentioned in class, you should probably do these on BLANK white paper and ho ...
Work / energy
... important forms are Kinetic energy and Potential energy. Kinetic energy is the energy possessed by moving masses. Kinetic energy depends on both the objects mass and the objects velocity. ...
... important forms are Kinetic energy and Potential energy. Kinetic energy is the energy possessed by moving masses. Kinetic energy depends on both the objects mass and the objects velocity. ...
Roller Coaster Physics
... An attempt at a vertical loop was tried in 1898, and was called the Flip-Flap Railway. However, the loop on this ride was a circle, as opposed to the clothoid loops that are used in roller coaster design today. This caused a problem: the forces generated by the circular loop were so strong that ride ...
... An attempt at a vertical loop was tried in 1898, and was called the Flip-Flap Railway. However, the loop on this ride was a circle, as opposed to the clothoid loops that are used in roller coaster design today. This caused a problem: the forces generated by the circular loop were so strong that ride ...
Motion and Potential Energy Graphs
... object downwards with acceleration g. As it does so it will lose potential energy P Eg and gain kinetic energy KE in such a way that its total mechanical energy ME remains constant. This motion can be deduced by looking at the potential-energy graph using the two concepts outlined above. Initially K ...
... object downwards with acceleration g. As it does so it will lose potential energy P Eg and gain kinetic energy KE in such a way that its total mechanical energy ME remains constant. This motion can be deduced by looking at the potential-energy graph using the two concepts outlined above. Initially K ...
P1 2.1 Energy transfers
... • Energy cannot be created or destroyed, it can only be transferred usefully, stored or wasted (called dissipated). • THE TOTAL AMOUNT OF ENERGY DOES NOT CHANGE. • This is called the principle of conservation of energy. ...
... • Energy cannot be created or destroyed, it can only be transferred usefully, stored or wasted (called dissipated). • THE TOTAL AMOUNT OF ENERGY DOES NOT CHANGE. • This is called the principle of conservation of energy. ...
Tracing Energy Conversions
... • There are other types of energy beside potential and kinetic: •Light •Chemical •Sound •Radiation •Mechanical •Electrical •Heat ...
... • There are other types of energy beside potential and kinetic: •Light •Chemical •Sound •Radiation •Mechanical •Electrical •Heat ...
Discharge Lamps Homework
... b. (0.5 pts) How many possible colors can an atom with 6 electronic energy levels (Ground state through level 5) emit? ...
... b. (0.5 pts) How many possible colors can an atom with 6 electronic energy levels (Ground state through level 5) emit? ...
Lesson 4- Amusement Parks
... Tell me your thoughts on mass vs. Weight. How are they connected? How are they different? Objective: 1) The purpose is to identify force, applied force, balanced force, unbalanced force, mass, and weight. Procedure: 1) Review one last time with the children the important terms from the lesson. Assi ...
... Tell me your thoughts on mass vs. Weight. How are they connected? How are they different? Objective: 1) The purpose is to identify force, applied force, balanced force, unbalanced force, mass, and weight. Procedure: 1) Review one last time with the children the important terms from the lesson. Assi ...
Energy and Mechanical Energy Energy Review
... • Kinetic energy is the energy of motion. • Kinetic energy is measured by how much work is done to put an object in motion or to stop the object. • Examples of kinetic energy: – A basketball player has kinetic energy. The movements that she does show the energy that is being displayed while she is m ...
... • Kinetic energy is the energy of motion. • Kinetic energy is measured by how much work is done to put an object in motion or to stop the object. • Examples of kinetic energy: – A basketball player has kinetic energy. The movements that she does show the energy that is being displayed while she is m ...
PHYS 100 Introductory Physics Laboratory V_S01
... In the physical world, the possession of energy by an object means that it has an ability to do work. Work done is a measure of the “effect” the application of a force produces. If the applied force and the displacement of the object are in the same direction, then the work done is given by, Work Do ...
... In the physical world, the possession of energy by an object means that it has an ability to do work. Work done is a measure of the “effect” the application of a force produces. If the applied force and the displacement of the object are in the same direction, then the work done is given by, Work Do ...
Chapter 6 Impulse and Momentum Continued
... Momentum conservation can be used to solve collision problems if there are no external forces affecting the motion of the masses. Energy conservation can be used to solve a collision problem if it is stated explicity that the collision is ELASTIC. ...
... Momentum conservation can be used to solve collision problems if there are no external forces affecting the motion of the masses. Energy conservation can be used to solve a collision problem if it is stated explicity that the collision is ELASTIC. ...