
Energy
... The kinetic energy of each vehicle depends on its mass and speed. The truck has more kinetic energy than the blue car because it has more mass. The blue car has more kinetic energy than the green car because it is moving faster. ...
... The kinetic energy of each vehicle depends on its mass and speed. The truck has more kinetic energy than the blue car because it has more mass. The blue car has more kinetic energy than the green car because it is moving faster. ...
S8P2 Students will be familiar with the forms and transformations of
... • Energy appears in different forms such as mechanical energy, gravitational energy, heat energy, and electric and magnetic energy. • Energy cannot be created or destroyed, but only changed from one form into another. • Transformations of energy usually release some energy typically in the form of h ...
... • Energy appears in different forms such as mechanical energy, gravitational energy, heat energy, and electric and magnetic energy. • Energy cannot be created or destroyed, but only changed from one form into another. • Transformations of energy usually release some energy typically in the form of h ...
Classifying Matter
... • For each question, write your answer on your whiteboard. • Hold up your answer when I say ZERO! • If you get it wrong, no problem- write the slide number of the answer down on your ...
... • For each question, write your answer on your whiteboard. • Hold up your answer when I say ZERO! • If you get it wrong, no problem- write the slide number of the answer down on your ...
Force & Motion
... Force is a push or pull exerted on an object. When you exert a force on an object, you can change the object’s motion. Unbalanced Forces Balanced Forces Cause an object to speed up, slow down, start/stop moving, or change direction. ...
... Force is a push or pull exerted on an object. When you exert a force on an object, you can change the object’s motion. Unbalanced Forces Balanced Forces Cause an object to speed up, slow down, start/stop moving, or change direction. ...
8th CRCT study guide
... the effects of simple machines. This domain also refers to explaining the relationship between mass and gravity, comparing and contrasting series and parallel circuits, and recognizing that electric currents and magnets can exert force on each other. What is the relationship between velocity and acc ...
... the effects of simple machines. This domain also refers to explaining the relationship between mass and gravity, comparing and contrasting series and parallel circuits, and recognizing that electric currents and magnets can exert force on each other. What is the relationship between velocity and acc ...
Energy
... • Bill Nye Energy: • On the back of your paper: • Name as many examples of energy as you can from the video. • Name examples of energy changes in the video. ...
... • Bill Nye Energy: • On the back of your paper: • Name as many examples of energy as you can from the video. • Name examples of energy changes in the video. ...
Electric Potential
... 2. Calculate the electric potential 0.50 m from a 4.5 x 10-4 C point charge. (8.1 x 106 V) 3. A 1.0 x 10-6 C test charge is 40 cm from a 3.2 x 10-3 C charged sphere. How much work was required to move it there from a point 100 cm away from the sphere? (43 J) 4. How much work must be done to bring tw ...
... 2. Calculate the electric potential 0.50 m from a 4.5 x 10-4 C point charge. (8.1 x 106 V) 3. A 1.0 x 10-6 C test charge is 40 cm from a 3.2 x 10-3 C charged sphere. How much work was required to move it there from a point 100 cm away from the sphere? (43 J) 4. How much work must be done to bring tw ...
Electric Potential Energy
... Things to remember about electric potential: Electric potential difference is the work per unit of charge that must be done to move a charge from one point to another without changing its kinetic energy. ● Sometimes it is convenient to define V to be zero at the earth ...
... Things to remember about electric potential: Electric potential difference is the work per unit of charge that must be done to move a charge from one point to another without changing its kinetic energy. ● Sometimes it is convenient to define V to be zero at the earth ...