PROBLEM SET AP1 Vectors
... 1. Two forces act concurrently on point P. One force is 60 N acting due East, the other force is 80 N acting due North. a. What is the magnitude and direction of the resultant force? b. What is the magnitude and direction of the equilibrant force? 2. A hiker leaves camp and walks 10 km due North and ...
... 1. Two forces act concurrently on point P. One force is 60 N acting due East, the other force is 80 N acting due North. a. What is the magnitude and direction of the resultant force? b. What is the magnitude and direction of the equilibrant force? 2. A hiker leaves camp and walks 10 km due North and ...
Chapter 12 test review
... ____ 16. When a pair of balanced forces acts on an object, the net force that results is a. greater in size than both forces combined. b. greater in size than one of the forces. c. equal in size to one of the forces. d. equal to zero. ____ 17. The property of matter that resists changes in motion is ...
... ____ 16. When a pair of balanced forces acts on an object, the net force that results is a. greater in size than both forces combined. b. greater in size than one of the forces. c. equal in size to one of the forces. d. equal to zero. ____ 17. The property of matter that resists changes in motion is ...
File
... 3. Determine the magnitude of any known forces and label on the freebody diagram. (For example, if the mass is given, then the Fgrav can be determined) 4. Use circular motion equations to determine any unknown information. (For example, if the speed and the radius are known, then the acceleration ca ...
... 3. Determine the magnitude of any known forces and label on the freebody diagram. (For example, if the mass is given, then the Fgrav can be determined) 4. Use circular motion equations to determine any unknown information. (For example, if the speed and the radius are known, then the acceleration ca ...
Early History & Fiction; Orbital Motion
... gravitational force field " !" Kinetic energy of mass, m, depends only on the velocity magnitude measured in an inertial frame of reference " !" Total energy is the sum of the two:" ...
... gravitational force field " !" Kinetic energy of mass, m, depends only on the velocity magnitude measured in an inertial frame of reference " !" Total energy is the sum of the two:" ...
Newton`s First Law of Motion
... mass—which is roughly the amount of material present in the object Mass is NOT volume, the measure of space that an object takes up Mass is NOT weight, the force of gravity on an object Mass is a measure of the inertia that an object exhibits in response to any effort made to start it, stop it ...
... mass—which is roughly the amount of material present in the object Mass is NOT volume, the measure of space that an object takes up Mass is NOT weight, the force of gravity on an object Mass is a measure of the inertia that an object exhibits in response to any effort made to start it, stop it ...
PHYS 1405 Sample Questions (1-4)
... Write each formula before using. Show your work, and box your answer and its correct units. Short answer questions in complete sentences without adding unnecessary or incorrect information. Points are in brackets []. Allowed Materials: Calculator, 3”x5” note-card. Useful Information: g = 10. m/s/s [ ...
... Write each formula before using. Show your work, and box your answer and its correct units. Short answer questions in complete sentences without adding unnecessary or incorrect information. Points are in brackets []. Allowed Materials: Calculator, 3”x5” note-card. Useful Information: g = 10. m/s/s [ ...
Lesson 1 Introducing Newtons Second Law
... Quick Starter The blocks in the diagram below are in equilibrium, g = 10ms-2 Find the friction force on the 4kg block and the tensions in the ropes. 4 kg ...
... Quick Starter The blocks in the diagram below are in equilibrium, g = 10ms-2 Find the friction force on the 4kg block and the tensions in the ropes. 4 kg ...
Force and Motion
... Lamont wants to move a 4,800 gram box from the floor to a shelf directly above the box. It takes Lamont 8 seconds to move the box to a shelf that is 0.4 meters from the ground. It takes 12 seconds to move the box to a shelf that is 1.2 meters off the ground. How much more work in joules is required ...
... Lamont wants to move a 4,800 gram box from the floor to a shelf directly above the box. It takes Lamont 8 seconds to move the box to a shelf that is 0.4 meters from the ground. It takes 12 seconds to move the box to a shelf that is 1.2 meters off the ground. How much more work in joules is required ...
Notes in pdf format
... We choose the positive sign because the initial velocity points upwards. We can now determine the magnitude of the initial velocity by using our results for the x and y components: v0 = sqrt [v0x2 + v0y2] ...
... We choose the positive sign because the initial velocity points upwards. We can now determine the magnitude of the initial velocity by using our results for the x and y components: v0 = sqrt [v0x2 + v0y2] ...
