Worksheet - Uniform Circular Motion File
... 4. A mass of 5.0 kg is whirled in a horizontal circle at one end of a string 50 cm long, the other end being fixed. If the string when hanging vertically will just support a load of 200 kg mass without breaking, find the maximum whirling speed in m s-1. 5. Calculate the magnitude of the force requir ...
... 4. A mass of 5.0 kg is whirled in a horizontal circle at one end of a string 50 cm long, the other end being fixed. If the string when hanging vertically will just support a load of 200 kg mass without breaking, find the maximum whirling speed in m s-1. 5. Calculate the magnitude of the force requir ...
Ch5. Uniform Circular Motion
... SP1. Students will analyze the relationships between force, mass, gravity, and the motion of objects. g. Measure and calculate centripetal force. ...
... SP1. Students will analyze the relationships between force, mass, gravity, and the motion of objects. g. Measure and calculate centripetal force. ...
Class #13 - Department of Physics | Oregon State University
... remain steady—are ready-made for use in kinematic calculations. Now we can predict any object’s motion simply by knowing its mass and the net force acting upon it. Apply the above to the skater FBD from the previous slide: Write a set of correct equations (one for the x-direction, one for the y-dire ...
... remain steady—are ready-made for use in kinematic calculations. Now we can predict any object’s motion simply by knowing its mass and the net force acting upon it. Apply the above to the skater FBD from the previous slide: Write a set of correct equations (one for the x-direction, one for the y-dire ...
motion
... • 3 collisions occur in a car crash: The car crashes & stops (occurs within 1/10 of a second) The occupant stops (same speed the car was going) The occupants internal organs stop (same speed as car) • 4 ways seat belts help save lives: Keep occupants in the vehicle (not thrown out into traffic/etc.) ...
... • 3 collisions occur in a car crash: The car crashes & stops (occurs within 1/10 of a second) The occupant stops (same speed the car was going) The occupants internal organs stop (same speed as car) • 4 ways seat belts help save lives: Keep occupants in the vehicle (not thrown out into traffic/etc.) ...
2 nd Law
... …the object is in Free Fall. Consider a 1kg rock and a 1gram feather. – Which object weighs more? • Answer: The rock ...
... …the object is in Free Fall. Consider a 1kg rock and a 1gram feather. – Which object weighs more? • Answer: The rock ...
Work
... Work is done on an object by a constant force moving the object through a distance It is the product of the displacement and the component of force parallel to the displacement ...
... Work is done on an object by a constant force moving the object through a distance It is the product of the displacement and the component of force parallel to the displacement ...
Newton`s Laws - Issaquah Connect
... Newton’s First law – The Law of Inertia Every object continues in a state of rest, or in a state of motion in a straight line unless acted upon by an unbalanced force. “objects at rest stay at rest, objects in motion stay in motion, unless acted upon by a force” Net force – a combination of all of t ...
... Newton’s First law – The Law of Inertia Every object continues in a state of rest, or in a state of motion in a straight line unless acted upon by an unbalanced force. “objects at rest stay at rest, objects in motion stay in motion, unless acted upon by a force” Net force – a combination of all of t ...
Physical Science
... 9. The Space Shuttle has a liftoff mass of 2,041,000 kg and accelerates at a rate of 16 m/s2. Calculate the force that is accelerating the Space Shuttle. ...
... 9. The Space Shuttle has a liftoff mass of 2,041,000 kg and accelerates at a rate of 16 m/s2. Calculate the force that is accelerating the Space Shuttle. ...
ABET - Mosinee School District
... The resistance that one surface or object encounters when moving over another. The fixed point around which a lever rotates. A circular toothed object used to transfer rotary motion and torque through interlocking teeth. Ratio of distance traveled by the applied effort and resistance force within a ...
... The resistance that one surface or object encounters when moving over another. The fixed point around which a lever rotates. A circular toothed object used to transfer rotary motion and torque through interlocking teeth. Ratio of distance traveled by the applied effort and resistance force within a ...
Name: Practice – 4.4 Newton`s Third Law of Motion
... 1. Suppose the mass of a fully loaded module in which astronauts take off from the Moon is 10,000 kg. [Note: On the surface of the Moon, gMoon = 1.67 m/s2.] The thrust of its engines is 30,000 N. A. Calculate its acceleration in a vertical takeoff from the Moon. ...
... 1. Suppose the mass of a fully loaded module in which astronauts take off from the Moon is 10,000 kg. [Note: On the surface of the Moon, gMoon = 1.67 m/s2.] The thrust of its engines is 30,000 N. A. Calculate its acceleration in a vertical takeoff from the Moon. ...
Equilibrium is not just translational, is is also rotational. While a set
... his shoulder muscles, holds a dumbbell of weight Wd. his arm is extended horizontally and weighs Wa = 31.0 N. The deltoid muscle is assumed to be the only muscle acting. The maximum force M that the deltoid muscle can supply is 1840 N. What is the weight of the heaviest dumbbell that can be held, an ...
... his shoulder muscles, holds a dumbbell of weight Wd. his arm is extended horizontally and weighs Wa = 31.0 N. The deltoid muscle is assumed to be the only muscle acting. The maximum force M that the deltoid muscle can supply is 1840 N. What is the weight of the heaviest dumbbell that can be held, an ...
M - Otterbein University
... 1. Every body continues in a state of rest or in a state of uniform motion in a straight line unless it is compelled to change that state by forces acting on it (law of inertia) ...
... 1. Every body continues in a state of rest or in a state of uniform motion in a straight line unless it is compelled to change that state by forces acting on it (law of inertia) ...
The Ferris Wheel: Answers
... Calculating Acceleration on a Ferris Wheel Acceleration can be computed quite easily for objects that are moving in a circular motion using the following formula. Acceleration = v2 / R = (4 x 2 x R) / T2 Question 1: a) Work out the centripetal acceleration of a passenger on the Ferris Wheel using t ...
... Calculating Acceleration on a Ferris Wheel Acceleration can be computed quite easily for objects that are moving in a circular motion using the following formula. Acceleration = v2 / R = (4 x 2 x R) / T2 Question 1: a) Work out the centripetal acceleration of a passenger on the Ferris Wheel using t ...
File - Lanier Bureau of Investigation
... k. Sitting in a chair is an example of the first and third law of motion. 3. Which of the following statements are true about speed, velocity and acceleration? Identify all that apply. a. Velocity includes speed and acceleration. b. A distance/time graph measures speed. c. The formula for speed is d ...
... k. Sitting in a chair is an example of the first and third law of motion. 3. Which of the following statements are true about speed, velocity and acceleration? Identify all that apply. a. Velocity includes speed and acceleration. b. A distance/time graph measures speed. c. The formula for speed is d ...
Lesson 1.1 Key Terms ABET The recognized accreditor for college
... The resistance that one surface or object encounters when moving over another. The fixed point around which a lever rotates. A circular toothed object used to transfer rotary motion and torque through interlocking teeth. Ratio of distance traveled by the applied effort and resistance force within a ...
... The resistance that one surface or object encounters when moving over another. The fixed point around which a lever rotates. A circular toothed object used to transfer rotary motion and torque through interlocking teeth. Ratio of distance traveled by the applied effort and resistance force within a ...
Chapter5Class3 - Chemistry at Winthrop University
... Banking the curve can help keep cars from skidding. In fact, for every banked curve, there is one speed at which the entire centripetal force is supplied by the ...
... Banking the curve can help keep cars from skidding. In fact, for every banked curve, there is one speed at which the entire centripetal force is supplied by the ...
Force = mass x acceleration
... 1. Any push or pull -can cause change in motion: a. friction b. inertia c. burn d. force 2. A force that always works against motion a. friction b. gravity c. inertia d. momentum ...
... 1. Any push or pull -can cause change in motion: a. friction b. inertia c. burn d. force 2. A force that always works against motion a. friction b. gravity c. inertia d. momentum ...