Physics/Graphing Notes
... A car slamming into a telephone pole. The driver is thrown from the vehicle. This is because the person stays in motion because there is not an unbalanced force to stop them. Intertia Lab—(Tray/Rocks/Pennies) The tray remains at rest until an unbalanced force (pennies) causes the tray to move. What ...
... A car slamming into a telephone pole. The driver is thrown from the vehicle. This is because the person stays in motion because there is not an unbalanced force to stop them. Intertia Lab—(Tray/Rocks/Pennies) The tray remains at rest until an unbalanced force (pennies) causes the tray to move. What ...
Newton`s second Law of Motion – Force and Acceleration
... 1.3 Create and interpret graphs of 1-dimensional motion, such as position vs. time, distance vs. time, speed vs. time, velocity vs. time, and acceleration vs. time where acceleration is constant. 1.4 Interpret and apply Newton’s three laws of motion. 1.5 Use a free-body force diagram to show forces ...
... 1.3 Create and interpret graphs of 1-dimensional motion, such as position vs. time, distance vs. time, speed vs. time, velocity vs. time, and acceleration vs. time where acceleration is constant. 1.4 Interpret and apply Newton’s three laws of motion. 1.5 Use a free-body force diagram to show forces ...
The Laws of Motion
... Even if you think to yourself, “well I am not taking notes,” you are still experiencing the force of gravity pulling you down and your chair exerting a force up so…there is no escape from the force of gravity! Well there is…but we will get to that in another lecture… ...
... Even if you think to yourself, “well I am not taking notes,” you are still experiencing the force of gravity pulling you down and your chair exerting a force up so…there is no escape from the force of gravity! Well there is…but we will get to that in another lecture… ...
Force and motion 1
... constant velocity in a straight line unless the forces act on it to change that state. Example When you are riding a bicycle on a level path and start to free-wheel, you can keep up an almost constant velocity force some time. But eventually you will slow down, partly because of air resistance. dire ...
... constant velocity in a straight line unless the forces act on it to change that state. Example When you are riding a bicycle on a level path and start to free-wheel, you can keep up an almost constant velocity force some time. But eventually you will slow down, partly because of air resistance. dire ...
Geography 04b
... Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us return to the Earth. Because the Earth rotates about its axis, it is actually an acceleratin ...
... Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us return to the Earth. Because the Earth rotates about its axis, it is actually an acceleratin ...
Which direction will the box move as a result of these forces?
... out of the nozzle at the bottom of the rocket. As a result, there is an upward force exerted on the rocket by the gases. Which of Newton’s laws is being used in this example? a) For every action, there is an equal and opposite reaction. b) An object at rest stays at rest unless another force is appl ...
... out of the nozzle at the bottom of the rocket. As a result, there is an upward force exerted on the rocket by the gases. Which of Newton’s laws is being used in this example? a) For every action, there is an equal and opposite reaction. b) An object at rest stays at rest unless another force is appl ...
Environmental Physics for Freshman Geography Students
... Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us return to the Earth. Because the Earth rotates about its axis, it is actually an acceleratin ...
... Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us return to the Earth. Because the Earth rotates about its axis, it is actually an acceleratin ...
Newton`s 2nd Law of Motion
... • A push or pull • The cause of an acceleration • Cause of a change in an object’s state of motion • Cause objects to speed up or slow down • Cause a change of direction • Unit of force: Newton (N) ...
... • A push or pull • The cause of an acceleration • Cause of a change in an object’s state of motion • Cause objects to speed up or slow down • Cause a change of direction • Unit of force: Newton (N) ...
Position
... Objects at rest remain at rest, and objects in motion remain in motion with the same velocity, unless acted upon by an unbalanced force. ...
... Objects at rest remain at rest, and objects in motion remain in motion with the same velocity, unless acted upon by an unbalanced force. ...
Standard EPS Shell Presentation
... continue the motion they already have unless they are acted on by a net force. If the net force is zero, an object at rest will stay at rest. If an object is acted upon by unbalanced forces, its motion will change. ...
... continue the motion they already have unless they are acted on by a net force. If the net force is zero, an object at rest will stay at rest. If an object is acted upon by unbalanced forces, its motion will change. ...
Name_________________Date___________Period_____ Num
... Directions: Use your notes and worksheets to help you answer the questions. Also, be sure to study all Unit 7 vocabulary words. 7-1 Measuring Motion 1. Give an example of a reference point and explain why it is a reference point. ...
... Directions: Use your notes and worksheets to help you answer the questions. Also, be sure to study all Unit 7 vocabulary words. 7-1 Measuring Motion 1. Give an example of a reference point and explain why it is a reference point. ...