Kinematics of Particles
... frame that is either fixed or translates with a constant velocity. • The reference frame should not rotate and should not accelerate. • In this way, the observer will not accelerate and measurements of particle’s acceleration will be the same from any reference of this type. Inertial or Newtonian ...
... frame that is either fixed or translates with a constant velocity. • The reference frame should not rotate and should not accelerate. • In this way, the observer will not accelerate and measurements of particle’s acceleration will be the same from any reference of this type. Inertial or Newtonian ...
Motion Velocity Net Force Sliding Friction Speed Rolling Friction
... As you study, keep track of the words you are getting right and wrong so you will know which ones you will need to spend the most time studying. To do this, place a tally mark beside the words you incorrectly identify during peer tutoring time. The words with the most tallies are the words you will ...
... As you study, keep track of the words you are getting right and wrong so you will know which ones you will need to spend the most time studying. To do this, place a tally mark beside the words you incorrectly identify during peer tutoring time. The words with the most tallies are the words you will ...
Centripetal Force
... W ' mg ' Fc mac From this point of view, what is the effective weight (W') of the revolving mass (magnitude and direction)? 6. What is the value of this g' (magnitude and direction)? 7. Using the same radius as you used above, what frequency (f) expressed in rps and rpm would the mechanism h ...
... W ' mg ' Fc mac From this point of view, what is the effective weight (W') of the revolving mass (magnitude and direction)? 6. What is the value of this g' (magnitude and direction)? 7. Using the same radius as you used above, what frequency (f) expressed in rps and rpm would the mechanism h ...
centripetal force
... 2. When the mass (m) is being spun around, what is the centripetal force (Fc) on it (magnitude and direction)? 3. What causes the centripetal force, that is, what physical body or agent exerts the force necessary to keep the object moving in a circle? 4. What causes the spring to be stretched? (HINT ...
... 2. When the mass (m) is being spun around, what is the centripetal force (Fc) on it (magnitude and direction)? 3. What causes the centripetal force, that is, what physical body or agent exerts the force necessary to keep the object moving in a circle? 4. What causes the spring to be stretched? (HINT ...
Lab 2
... The force table is designed to help you study the properties of forces at known angles. Only when forces are along the same line do they add by ordinary algebra. If two or more forces on the same body form angles with each other, it is necessary to use geometry to find the amount and direction of th ...
... The force table is designed to help you study the properties of forces at known angles. Only when forces are along the same line do they add by ordinary algebra. If two or more forces on the same body form angles with each other, it is necessary to use geometry to find the amount and direction of th ...
Circular motion and rotation Uniform circular motion
... Relate the radius of the circle and the speed or rate of revolution of the particle to the magnitude of the centripetal acceleration. Describe the direction of the particle’s velocity and acceleration at any instant during the motion. Determine the components of the velocity and acceleration v ...
... Relate the radius of the circle and the speed or rate of revolution of the particle to the magnitude of the centripetal acceleration. Describe the direction of the particle’s velocity and acceleration at any instant during the motion. Determine the components of the velocity and acceleration v ...
Chapter 5: Uniform Circular Motion
... A rigid mass-less rod is rotated about one end in a horizontal circle. There is a mass m1 attached to the centre of the rod and a mass m2 attached to the end. The inner section of the rod sustains 3 times the tension as the outer section. Find m2/m1. ...
... A rigid mass-less rod is rotated about one end in a horizontal circle. There is a mass m1 attached to the centre of the rod and a mass m2 attached to the end. The inner section of the rod sustains 3 times the tension as the outer section. Find m2/m1. ...
Chapter 5 - TTU Physics
... The coefficient of friction depends on the surfaces in contact The force of static friction is generally greater than the force of kinetic friction The direction of the frictional force is opposite the direction of motion and parallel to the surfaces in contact The coefficients of friction are nearl ...
... The coefficient of friction depends on the surfaces in contact The force of static friction is generally greater than the force of kinetic friction The direction of the frictional force is opposite the direction of motion and parallel to the surfaces in contact The coefficients of friction are nearl ...
