NEWTON`S FIRST LAW CONCEPTUAL WORKSHEET
... If you were in a spaceship and fired a cannonball into space, how much force would have to be exerted on the ball to keep it moving once it has left the spaceship? ...
... If you were in a spaceship and fired a cannonball into space, how much force would have to be exerted on the ball to keep it moving once it has left the spaceship? ...
NEWTON`S FIRST LAW CONCEPTUAL WORKSHEET
... If you were in a spaceship and fired a cannonball into space, how much force would have to be exerted on the ball to keep it moving once it has left the spaceship? ...
... If you were in a spaceship and fired a cannonball into space, how much force would have to be exerted on the ball to keep it moving once it has left the spaceship? ...
Force
... Newton’s first law: Objects at rest stay at rest and objects in motion stay in motion with the same velocity unless acted on by a net force Newton’s second law: F=ma So….objects will speed up, change direction or stop only if acted on by a net force ...
... Newton’s first law: Objects at rest stay at rest and objects in motion stay in motion with the same velocity unless acted on by a net force Newton’s second law: F=ma So….objects will speed up, change direction or stop only if acted on by a net force ...
Lesson 20 - Acceleration
... A straight line on a velocity time graph indicates constant acceleration and the slope of the line is the measure of the acceleration Does the slope of the line on your velocity time graph appear similar to any numbers we have seen in the past? ...
... A straight line on a velocity time graph indicates constant acceleration and the slope of the line is the measure of the acceleration Does the slope of the line on your velocity time graph appear similar to any numbers we have seen in the past? ...
Experiment 1G Uniform Circular Motion
... Static Test of the Centripetal Force Consider the bob hanging from the crossarm with the stretched spring and a cord with suspended weights attached to it as in Figure 1. The horizontal forces on the bob are provided by the spring and the tension in the spring due to the suspended weights. If the bo ...
... Static Test of the Centripetal Force Consider the bob hanging from the crossarm with the stretched spring and a cord with suspended weights attached to it as in Figure 1. The horizontal forces on the bob are provided by the spring and the tension in the spring due to the suspended weights. If the bo ...
Centripetal Force - Northern Illinois University
... This experiment uses a vertical shaft that can freely rotate to spin a massive bob of mass m. The bob hangs by two strings from a horizontal bar with a counterweight on the other side. The counterweight helps the shaft rotate evenly. A spring can connect the bob to the shaft and provides a force to ...
... This experiment uses a vertical shaft that can freely rotate to spin a massive bob of mass m. The bob hangs by two strings from a horizontal bar with a counterweight on the other side. The counterweight helps the shaft rotate evenly. A spring can connect the bob to the shaft and provides a force to ...
constants - Tracy Unified School District
... A. four times the original weight. C. twice the original weight. B. the same as the original weight. D. one-half the original weight. 23. The orbital speed of a satellite in circular orbit around a planet is independent of the A. period of the satellite. D. orbital radius of the satellite. B. mass o ...
... A. four times the original weight. C. twice the original weight. B. the same as the original weight. D. one-half the original weight. 23. The orbital speed of a satellite in circular orbit around a planet is independent of the A. period of the satellite. D. orbital radius of the satellite. B. mass o ...
Part I - Otterbein
... • We need to know the position of the object in the moment at which we want to calculate its velocity • We need to know the initial velocity of the object to calculate its velocity at time t • This equation is only true if the acceleration of the object is constant. • The equation is only true for p ...
... • We need to know the position of the object in the moment at which we want to calculate its velocity • We need to know the initial velocity of the object to calculate its velocity at time t • This equation is only true if the acceleration of the object is constant. • The equation is only true for p ...
Forces - hrsbstaff.ednet.ns.ca
... When you drop a 400-g apple, Earth exerts a force on it that accelerates it at 9.81 m/s2 toward Earth’s surface. According to Newton’s 3rd law, the apple must exert an equal and opposite force on Earth. If the mass of Earth is 5.98 x 1024 kg, what’s the magnitude of Earth’s ...
... When you drop a 400-g apple, Earth exerts a force on it that accelerates it at 9.81 m/s2 toward Earth’s surface. According to Newton’s 3rd law, the apple must exert an equal and opposite force on Earth. If the mass of Earth is 5.98 x 1024 kg, what’s the magnitude of Earth’s ...
Document
... Work-energy principle for the rotational motion The concept of the torque follows from the work-energy principle: The solid object is balanced if its displacements and rotations result in a zero work of applied forces. Indeed, if the work is nonzero, then displacements or rotations accompanied by t ...
... Work-energy principle for the rotational motion The concept of the torque follows from the work-energy principle: The solid object is balanced if its displacements and rotations result in a zero work of applied forces. Indeed, if the work is nonzero, then displacements or rotations accompanied by t ...
6-1 Gravity and Motion
... 6-2 Newton’s Laws of Motion • Newton’s First Law of Motion (Law of Inertia) – States that an object at rest will remain at rest and an object that is moving at constant velocity will ...
... 6-2 Newton’s Laws of Motion • Newton’s First Law of Motion (Law of Inertia) – States that an object at rest will remain at rest and an object that is moving at constant velocity will ...
RG 6 - mine
... acting on it. This means that, as the net force acting on the object decreases, the acceleration of the object ...
... acting on it. This means that, as the net force acting on the object decreases, the acceleration of the object ...
Newton`s 3rd Law
... Let’s Review • Newton's third law of motion states that __________. A) an object will remain at rest or keep moving in a straight line with constant speed unless a force acts on it B) when a force is applied on an object, there is an equal force applied by the object in the opposite direction C) ac ...
... Let’s Review • Newton's third law of motion states that __________. A) an object will remain at rest or keep moving in a straight line with constant speed unless a force acts on it B) when a force is applied on an object, there is an equal force applied by the object in the opposite direction C) ac ...
Review PowerPoint
... Which graph represents the relationship between the magnitude of the gravitational force exerted by Earth on a spacecraft and the distance between the center of the spacecraft and center of Earth? A. B. C. ...
... Which graph represents the relationship between the magnitude of the gravitational force exerted by Earth on a spacecraft and the distance between the center of the spacecraft and center of Earth? A. B. C. ...
Unit Two Chapter 3, Part 2 Projectile Motion
... experience a constant vertical acceleration of 10.0 m/s2 downward. (neglecting air resistance) ...
... experience a constant vertical acceleration of 10.0 m/s2 downward. (neglecting air resistance) ...
Forces Test I
... _____ 20. If an object is in physical equilibrium, the net force on the object must be zero. _____ 21. If the net force on an object is zero, it must be at rest. _____ 22. Any object with zero acceleration must have a constant velocity. _____ 23. Any object with zero acceleration must be at rest. __ ...
... _____ 20. If an object is in physical equilibrium, the net force on the object must be zero. _____ 21. If the net force on an object is zero, it must be at rest. _____ 22. Any object with zero acceleration must have a constant velocity. _____ 23. Any object with zero acceleration must be at rest. __ ...
Newton`s Laws
... Which of these will be the same as on earth: Gravity, your mass or your weight? An object will have the same mass on the moon as on earth – it still has the same amount of matter An object weighs less on the moon but has the same mass. It weighs less because there is less gravity. You would weigh mo ...
... Which of these will be the same as on earth: Gravity, your mass or your weight? An object will have the same mass on the moon as on earth – it still has the same amount of matter An object weighs less on the moon but has the same mass. It weighs less because there is less gravity. You would weigh mo ...