Frames of Reference
... •There is no experiment that can tell you if you are moving at a constant velocity! •All frames are equivalent. ...
... •There is no experiment that can tell you if you are moving at a constant velocity! •All frames are equivalent. ...
STAAR Science Tutorial 25 TEK 8.6C: Newton`s Laws
... Every object in motion can be analyzed using Newton’s Laws of Motion to describe how the force acting on the object, and the mass of that object, result in acceleration. Consider the game of pool or billiards. The cue ball is set on the table, and does not move until hit with the cue stick. Newton’s ...
... Every object in motion can be analyzed using Newton’s Laws of Motion to describe how the force acting on the object, and the mass of that object, result in acceleration. Consider the game of pool or billiards. The cue ball is set on the table, and does not move until hit with the cue stick. Newton’s ...
Chapter 10 study guide answers
... a. What was the speed/velocity of the apple? 3.75 m/s b. If the apple was accelerating at 9m/s/s, what was the force of the apple when it hit Walter? .03 Newtons 28. What is Newton’s 3rd Law of Motion? When one object exerts a force on another, then the second object exerts a force of equal and oppo ...
... a. What was the speed/velocity of the apple? 3.75 m/s b. If the apple was accelerating at 9m/s/s, what was the force of the apple when it hit Walter? .03 Newtons 28. What is Newton’s 3rd Law of Motion? When one object exerts a force on another, then the second object exerts a force of equal and oppo ...
1 Introduction: 2 The work of a force:
... – Data pertaining to the elevation y of the particle from the datum and the extension or compression s of any connecting springs can be determined from the geometry associated with the two ...
... – Data pertaining to the elevation y of the particle from the datum and the extension or compression s of any connecting springs can be determined from the geometry associated with the two ...
Forces and Motion
... and opposite force on the first object • Momentum – Product of an object’s mass and its velocity – Objects momentum at rest is zero – Unit kg m/s ...
... and opposite force on the first object • Momentum – Product of an object’s mass and its velocity – Objects momentum at rest is zero – Unit kg m/s ...
Chapter 4 Notes
... a. contact forces-forces that arise from the physical contact of two objects b. field forces-forces that can exist between objects, even in the absence of physical contact between the objects B. Force Diagrams 1. The effects of forces depend on their magnitude and direction, so force is a vector qua ...
... a. contact forces-forces that arise from the physical contact of two objects b. field forces-forces that can exist between objects, even in the absence of physical contact between the objects B. Force Diagrams 1. The effects of forces depend on their magnitude and direction, so force is a vector qua ...
Glossary for Chapter 5 Forces
... The centre of gravity of an object is the point at which the weight of the object can be said to act. ...
... The centre of gravity of an object is the point at which the weight of the object can be said to act. ...
2013
... 3. Under what conditions on ma and ms will the equations of motion you derived in questions (1) and (2) above become the same? 4. Determine the components of the absolute angular velocity vector of the satellite ω = ω1 b̂1 + ω2 b̂1 + ω3 b̂1 in terms of quantities given in Figure 1 and your answers f ...
... 3. Under what conditions on ma and ms will the equations of motion you derived in questions (1) and (2) above become the same? 4. Determine the components of the absolute angular velocity vector of the satellite ω = ω1 b̂1 + ω2 b̂1 + ω3 b̂1 in terms of quantities given in Figure 1 and your answers f ...
Inv 3
... When two vectors are added together, they produce a resultant that is found using the parallelogram rule. In the diagrams below, a and b are examples of parallelogram rule. Use these as a guide to find the resultant of the vectors in c and d. a ...
... When two vectors are added together, they produce a resultant that is found using the parallelogram rule. In the diagrams below, a and b are examples of parallelogram rule. Use these as a guide to find the resultant of the vectors in c and d. a ...
Review for Test (Newton`s 2nd and 3rd Laws)
... 3. On that bicycle (from #2), you travel for 5 min down a gradual hill. If your initial velocity was 2 m/s, what was the final velocity? 4. A whale is lifted into the air by a crane. The crane must exert an unbalanced force of 800 N to lift the whale from rest. If the acceleration of the object was ...
... 3. On that bicycle (from #2), you travel for 5 min down a gradual hill. If your initial velocity was 2 m/s, what was the final velocity? 4. A whale is lifted into the air by a crane. The crane must exert an unbalanced force of 800 N to lift the whale from rest. If the acceleration of the object was ...
Motion Study Guide
... 16. A steel ball whose mass is 2.0 kg is rolling at a rate of 2.8 m/s. What is its momentum? p = mv = (2.0 kg)(2.8 m/s) = 5.6 kg*m/s 17. A race car leaves the starting line and travels 36000 m in the first 600 seconds of the race. They are then forced to take a pit stop and don’t go anywhere for 250 ...
... 16. A steel ball whose mass is 2.0 kg is rolling at a rate of 2.8 m/s. What is its momentum? p = mv = (2.0 kg)(2.8 m/s) = 5.6 kg*m/s 17. A race car leaves the starting line and travels 36000 m in the first 600 seconds of the race. They are then forced to take a pit stop and don’t go anywhere for 250 ...
