Uniform Circular Motion
... different ways: the force, F, due to gravity on a mass attached to the spring for a non-rotating system, and the centripetal force due to a rotating mass. In the experiment, we will arrange it so the force, F, exerted on the spring by the nonrotating mass, M, is the same as the force exerted on the ...
... different ways: the force, F, due to gravity on a mass attached to the spring for a non-rotating system, and the centripetal force due to a rotating mass. In the experiment, we will arrange it so the force, F, exerted on the spring by the nonrotating mass, M, is the same as the force exerted on the ...
To show that the acceleration of a body is proportional to the applied
... Newton's Second law states that "the rate of change of momentum of a body is proportional to the force causing it and takes place in the direction of that force". i.e. (mv - mu) / t F or m(v - u) / t F which gives ma F. Outline of experimental procedure: This experiment is divided into two par ...
... Newton's Second law states that "the rate of change of momentum of a body is proportional to the force causing it and takes place in the direction of that force". i.e. (mv - mu) / t F or m(v - u) / t F which gives ma F. Outline of experimental procedure: This experiment is divided into two par ...
Chapter 4 Review
... 19. The acceleration produced by a net force on an object is _____. a. directly proportional the magnitude of the net force. b. in the same direction as the net force c. inversely proportional to the mass of the object d. all of the above e. none of the above 20. A heavy person and a light person pa ...
... 19. The acceleration produced by a net force on an object is _____. a. directly proportional the magnitude of the net force. b. in the same direction as the net force c. inversely proportional to the mass of the object d. all of the above e. none of the above 20. A heavy person and a light person pa ...
Chapter 6 notes new
... Try putting your palm flat against the air and then put it sideways (parallel to the ground) (do it with your see saw) The more surface area, the more air resistance as well. (ball up the paper) The air resistance force an object experiences depends on the object’s speed and surface area. Physics of ...
... Try putting your palm flat against the air and then put it sideways (parallel to the ground) (do it with your see saw) The more surface area, the more air resistance as well. (ball up the paper) The air resistance force an object experiences depends on the object’s speed and surface area. Physics of ...
File
... A The object will gradually slow down and come to a stop. B Centripetal force will cause the object to go into a circular orbit. C The object’s motion will remain unchanged. D The object will accelerate and change direction. ...
... A The object will gradually slow down and come to a stop. B Centripetal force will cause the object to go into a circular orbit. C The object’s motion will remain unchanged. D The object will accelerate and change direction. ...
Do now
... during that time interval. [show all work including equation and substitution with number and units.] ...
... during that time interval. [show all work including equation and substitution with number and units.] ...
5 N
... Notice that when the forces are balanced, the object might still be moving, but the objects are not accelerating, instead they have a constant velocity. Hence, once in motion – it’s always in motion unless acted upon by what? Another Force. ...
... Notice that when the forces are balanced, the object might still be moving, but the objects are not accelerating, instead they have a constant velocity. Hence, once in motion – it’s always in motion unless acted upon by what? Another Force. ...
Chapter 3
... 10. Which of the following is a type of linear motion? a. angular motion b. curvilinear motion c. angulolinear motion d. curviangular motion 11. Which of the following statements accurately describes the relationship between linear and angular motion? a. angular motion of the joints produces linear ...
... 10. Which of the following is a type of linear motion? a. angular motion b. curvilinear motion c. angulolinear motion d. curviangular motion 11. Which of the following statements accurately describes the relationship between linear and angular motion? a. angular motion of the joints produces linear ...
Chapter 8 Accelerated Circular Motion continued
... For point 1 on the blade, find the magnitude of (a) the tangential speed and (b) the tangential acceleration. Convert revolutions to radians ...
... For point 1 on the blade, find the magnitude of (a) the tangential speed and (b) the tangential acceleration. Convert revolutions to radians ...
Name - Net Start Class
... Newton’s first law of motion states that the motion of an object, such as a baseball changes only if an unbalanced force acts on it. Force and motion are connected. Force and Acceleration What is the difference when throwing a ball as hard and you can or tossing it gently? The harder you throw somet ...
... Newton’s first law of motion states that the motion of an object, such as a baseball changes only if an unbalanced force acts on it. Force and motion are connected. Force and Acceleration What is the difference when throwing a ball as hard and you can or tossing it gently? The harder you throw somet ...
Powerpoint Slides
... • Mass: measures the difficulty in accelerating an object • Newton’s first law: if the net force on an object is zero, its velocity is constant • Inertial frame of reference: one in which the first law holds • Newton’s second law: • Free-body diagram: a sketch showing all the forces on an object ...
... • Mass: measures the difficulty in accelerating an object • Newton’s first law: if the net force on an object is zero, its velocity is constant • Inertial frame of reference: one in which the first law holds • Newton’s second law: • Free-body diagram: a sketch showing all the forces on an object ...
T = mv 2 / r
... Occupants of a space station feel weightless because they lack a support (Normal) force. By spinning the station as just the right speed, they will experience a “simulated gravity” when the Normal force of the floor pushing on them becomes a centripetal force. The closer their centripetal accelerati ...
... Occupants of a space station feel weightless because they lack a support (Normal) force. By spinning the station as just the right speed, they will experience a “simulated gravity” when the Normal force of the floor pushing on them becomes a centripetal force. The closer their centripetal accelerati ...
Dynamics - Mr. Grant's Site
... 3) For every action force on an object (B) due to another object (A), there is a reaction force, equal in magnitude but opposite in direction ...
... 3) For every action force on an object (B) due to another object (A), there is a reaction force, equal in magnitude but opposite in direction ...
