lec06
... Because your sister is moving in a circle at a constant speed, we know the net force on her. However, we don’t know most of the individual physical forces that make up this total. These include her weight (which we know = 196 N down), the normal force from sitting on the horse, the friction from sit ...
... Because your sister is moving in a circle at a constant speed, we know the net force on her. However, we don’t know most of the individual physical forces that make up this total. These include her weight (which we know = 196 N down), the normal force from sitting on the horse, the friction from sit ...
Acceleration
... • Velocity (v, vo); meters per second (m/s) • Acceleration (a); meters per s2 (m/s2) • Time (t); seconds (s) Review sign convention for each symbol ...
... • Velocity (v, vo); meters per second (m/s) • Acceleration (a); meters per s2 (m/s2) • Time (t); seconds (s) Review sign convention for each symbol ...
PROBLEM SET AP1 Circular Motion
... 4) A young boy swings a 0.20 kg yo-yo horizontally above his head. The string is 51 cm long and it takes 2.0 s for the yo-yo to make one revolution. a) What is the translational speed of the yo-yo? b) What is the centripetal acceleration of the yo-yo? c) What is the tension in the string? 5) The sam ...
... 4) A young boy swings a 0.20 kg yo-yo horizontally above his head. The string is 51 cm long and it takes 2.0 s for the yo-yo to make one revolution. a) What is the translational speed of the yo-yo? b) What is the centripetal acceleration of the yo-yo? c) What is the tension in the string? 5) The sam ...
Numerical Integration of Newton`s Second Law of Motion
... course), and to explore the behavior of such an object. ...
... course), and to explore the behavior of such an object. ...
Motion in accelerated reference frames
... We again have a law of addition of velocities: the velocity of P in the O-system is the vector sum of the velocity VA of the fixed point of the A-system that coincides with P and the velocity vA of P relative to the A-system. This is illustrated for a special case in figure 1.2 discussed in the exampl ...
... We again have a law of addition of velocities: the velocity of P in the O-system is the vector sum of the velocity VA of the fixed point of the A-system that coincides with P and the velocity vA of P relative to the A-system. This is illustrated for a special case in figure 1.2 discussed in the exampl ...
Circular Motion Powerpoint
... You have just studied circular motion. It has 2 dimensions. Speed can be constant but velocity will always change. Moving in a circle causes velocity to constantly change. But which way? Lets study!!!!!!!!!!!!!!!!!!!!!!!! ...
... You have just studied circular motion. It has 2 dimensions. Speed can be constant but velocity will always change. Moving in a circle causes velocity to constantly change. But which way? Lets study!!!!!!!!!!!!!!!!!!!!!!!! ...
Our Place in the Cosmos Elective Course
... star and so is moving with constant speed - is the planet accelerating? • How can we reconcile the Coriolis effect with Newton’s 1st law of motion? • In there were a planet with an orbit 1/4 the size of Mercury’s, what would be its orbital period relative to that of Mercury? ...
... star and so is moving with constant speed - is the planet accelerating? • How can we reconcile the Coriolis effect with Newton’s 1st law of motion? • In there were a planet with an orbit 1/4 the size of Mercury’s, what would be its orbital period relative to that of Mercury? ...