Review2
... •A taut cord pulls on objects at either end with equal and opposite force equal to the tension. •Cords are massless, pulleys are massless and frictionless ...
... •A taut cord pulls on objects at either end with equal and opposite force equal to the tension. •Cords are massless, pulleys are massless and frictionless ...
Part 2 - Haiku
... the amount of applied force, Fapplied, necessary to overcome static friction, Fstatic and at this moment, they are nearly equal forces, so assume Fapplied = Fstatic . Record the minimum applied force as Fstatic. 3. While the crate is in motion, let go of the slider, observe the change in the force v ...
... the amount of applied force, Fapplied, necessary to overcome static friction, Fstatic and at this moment, they are nearly equal forces, so assume Fapplied = Fstatic . Record the minimum applied force as Fstatic. 3. While the crate is in motion, let go of the slider, observe the change in the force v ...
Quarterly Review Sheet - Hicksville Public Schools
... 1. A car is traveling North and speeding up. Acceleration is directed: 2. A car is traveling South and accelerating South. Is it speeding up or slowing down? 3. A man travels 100m North, 100m East, and 100m South in 300 seconds. Calculate his distance, displacement, speed, and velocity. ...
... 1. A car is traveling North and speeding up. Acceleration is directed: 2. A car is traveling South and accelerating South. Is it speeding up or slowing down? 3. A man travels 100m North, 100m East, and 100m South in 300 seconds. Calculate his distance, displacement, speed, and velocity. ...
graphs and equations of motion
... 1. A car travelling at 20 m/s accelerates uniformly at 0.5 m/s2 until it is travelling at 30 m/s. Calculate the distance travelled by the car during this time. 2. A toy rocket is launched vertically and reaches a height of 60 m. What was its launch speed? ...
... 1. A car travelling at 20 m/s accelerates uniformly at 0.5 m/s2 until it is travelling at 30 m/s. Calculate the distance travelled by the car during this time. 2. A toy rocket is launched vertically and reaches a height of 60 m. What was its launch speed? ...
Part IV
... Two boxes are connected by a lightweight (massless!) cord & are resting on a smooth (frictionless!) table. The masses are mA = 10 kg & mB = 12 kg. A horizontal force FP = 40 N is applied to mA. Calculate: a. The acceleration of the boxes. b. The tension in the cord connecting the ...
... Two boxes are connected by a lightweight (massless!) cord & are resting on a smooth (frictionless!) table. The masses are mA = 10 kg & mB = 12 kg. A horizontal force FP = 40 N is applied to mA. Calculate: a. The acceleration of the boxes. b. The tension in the cord connecting the ...
Newton`s Laws of Motion - Tamalpais Union High School District
... • Moving equilibrium à object at constant velocity ...
... • Moving equilibrium à object at constant velocity ...
SS Review for Final
... In which situation is the net force on the object equal to zero (mechanical equilibrium)? (A) a satellite moving at constant speed around Earth in a circular orbit (B) an automobile braking to a stop (C) a bicycle moving at constant speed on a straight, level road (D) a pitched baseball being hit b ...
... In which situation is the net force on the object equal to zero (mechanical equilibrium)? (A) a satellite moving at constant speed around Earth in a circular orbit (B) an automobile braking to a stop (C) a bicycle moving at constant speed on a straight, level road (D) a pitched baseball being hit b ...
in m/s 2
... 1) What is the weight on Earth of a book with mass 2kg? 2) What is the weight on Earth of an apple with mass 100g? 3) Dave weighs 700N. What is his mass? 4) On the moon the gravitational field strength is 1.6N/kg. What will Dave weigh if he stands on the moon? ...
... 1) What is the weight on Earth of a book with mass 2kg? 2) What is the weight on Earth of an apple with mass 100g? 3) Dave weighs 700N. What is his mass? 4) On the moon the gravitational field strength is 1.6N/kg. What will Dave weigh if he stands on the moon? ...
Bellringer
... A. 0 mph B. 400 mph If someone gets up and walks to the front of the plane at 8 mph what is their speed relative to the plane? Relative to an observer on the ground? A. 8 mph B. 408 mph If they now turn around and walk back to their seat, what is their speed relative to an observer on the ground ...
... A. 0 mph B. 400 mph If someone gets up and walks to the front of the plane at 8 mph what is their speed relative to the plane? Relative to an observer on the ground? A. 8 mph B. 408 mph If they now turn around and walk back to their seat, what is their speed relative to an observer on the ground ...
1. Mass, Force and Gravity
... i) If a rock is dropped from a window, it will also accelerate. It will do so at about 9.8 m/s2. Would the acceleration due to gravity change if the rock was bigger? No gravitational acceleration does not depend on the mass of the object being dropped. Take a half full can and a full one. They will ...
... i) If a rock is dropped from a window, it will also accelerate. It will do so at about 9.8 m/s2. Would the acceleration due to gravity change if the rock was bigger? No gravitational acceleration does not depend on the mass of the object being dropped. Take a half full can and a full one. They will ...
Chapter 7: Using Vectors: Motion and Force
... 1. Add and subtract displacement vectors to describe changes in position. 2. Calculate the x and y components of a displacement, velocity, and force vector. 3. Write a velocity vector in polar and x-y coordinates. 4. Calculate the range of a projectile given the initial velocity vector. 5. Use force ...
... 1. Add and subtract displacement vectors to describe changes in position. 2. Calculate the x and y components of a displacement, velocity, and force vector. 3. Write a velocity vector in polar and x-y coordinates. 4. Calculate the range of a projectile given the initial velocity vector. 5. Use force ...
Chapter 4 Forces and Newton’s Laws of Motion continued
... A massless rope will transmit tension magnitude undiminished from one end to the other. A massless, frictionless pulley, transmits the tension undiminished to the other end. If the mass is at rest or moving with a constant speed & direction the Net Force on the mass is zero! ...
... A massless rope will transmit tension magnitude undiminished from one end to the other. A massless, frictionless pulley, transmits the tension undiminished to the other end. If the mass is at rest or moving with a constant speed & direction the Net Force on the mass is zero! ...
Investigating Friction
... Begin by checking to make sure that the Lab Pro is plugged in to a power supply and the USB cable is connected from it to the computer. Connect the force sensor to the Analog 1 input. Open the LoggerPro file called Friction Experiment. (If you are using a WDSS, open the WDSS friction file, and pair ...
... Begin by checking to make sure that the Lab Pro is plugged in to a power supply and the USB cable is connected from it to the computer. Connect the force sensor to the Analog 1 input. Open the LoggerPro file called Friction Experiment. (If you are using a WDSS, open the WDSS friction file, and pair ...
and y - Cloudfront.net
... 1. Add and subtract displacement vectors to describe changes in position. 2. Calculate the x and y components of a displacement, velocity, and force vector. 3. Write a velocity vector in polar and x-y coordinates. 4. Calculate the range of a projectile given the initial velocity vector. 5. Use force ...
... 1. Add and subtract displacement vectors to describe changes in position. 2. Calculate the x and y components of a displacement, velocity, and force vector. 3. Write a velocity vector in polar and x-y coordinates. 4. Calculate the range of a projectile given the initial velocity vector. 5. Use force ...
