05_Clicker_Questions..
... b. it is kicked by two feet with equal and opposite amounts of force. c. it is kicked in the same direction by two feet. d. it is kicked by two feet at right angles to each other. ...
... b. it is kicked by two feet with equal and opposite amounts of force. c. it is kicked in the same direction by two feet. d. it is kicked by two feet at right angles to each other. ...
B Newtons Laws
... The Law of Inertia. A body in motion stays in motion at constant velocity and a body at rest stays at rest unless acted upon by an external force. (note:)This law is commonly applied to the horizontal component of velocity, which is assumed not to change during the flight of a projectile. ...
... The Law of Inertia. A body in motion stays in motion at constant velocity and a body at rest stays at rest unless acted upon by an external force. (note:)This law is commonly applied to the horizontal component of velocity, which is assumed not to change during the flight of a projectile. ...
B. Multiple Choice Questions
... 4. Block A is heavier than Block B. The force F is the same in both configurations. The surface is frictionless. The acceleration of Block A A.) is larger than Block B. A B.) is smaller than Block B. F C.) is the same as Block B. D.) can not be determined. E.) none of the above. F ...
... 4. Block A is heavier than Block B. The force F is the same in both configurations. The surface is frictionless. The acceleration of Block A A.) is larger than Block B. A B.) is smaller than Block B. F C.) is the same as Block B. D.) can not be determined. E.) none of the above. F ...
Chapter 3 Summary
... • Set up the problem as usual, including the force of friction • For example, as seen in fig. 3.11: • ΣF = Ffriction = -μk N = m a • From the y-direction, Fgrav = N = m g • Therefore, -μk m g = m a and a = - μk g • Once you have found the acceleration, other quantities involved with motion can also ...
... • Set up the problem as usual, including the force of friction • For example, as seen in fig. 3.11: • ΣF = Ffriction = -μk N = m a • From the y-direction, Fgrav = N = m g • Therefore, -μk m g = m a and a = - μk g • Once you have found the acceleration, other quantities involved with motion can also ...
File
... 15. If the action force is a hockey stick pushing a puck to the left, then the reaction force is the ___. a. puck pulling the hockey stick to the left b. puck pulling the hockey stick to the right c. puck pushing the hockey stick to the left d. puck pushing the hockey stick to the right ...
... 15. If the action force is a hockey stick pushing a puck to the left, then the reaction force is the ___. a. puck pulling the hockey stick to the left b. puck pulling the hockey stick to the right c. puck pushing the hockey stick to the left d. puck pushing the hockey stick to the right ...
1 PHYSICS 231 Lecture 9: More on forces
... is zero the object continues in its original state of motion; if it was at rest, it remains at rest. If it was moving with a certain velocity, it will keep on moving with the same velocity. Second Law: The acceleration of an object is proportional to the net force acting on it, and inversely propo ...
... is zero the object continues in its original state of motion; if it was at rest, it remains at rest. If it was moving with a certain velocity, it will keep on moving with the same velocity. Second Law: The acceleration of an object is proportional to the net force acting on it, and inversely propo ...
Lecture04
... Kinematics described motion only – no real Physics. Why does a particle have a certain acceleration? New concepts (in 17th century): • Forces - pushes or pulls - cause acceleration • Inertia (mass) measures how much matter is being accelerated – resistance to acceleration Newton’s 3 Laws of Motion: ...
... Kinematics described motion only – no real Physics. Why does a particle have a certain acceleration? New concepts (in 17th century): • Forces - pushes or pulls - cause acceleration • Inertia (mass) measures how much matter is being accelerated – resistance to acceleration Newton’s 3 Laws of Motion: ...
Exam I - Physics
... a) no forces are acting on the orange b) all forces acting on the orange cancel each other out c) only the force of gravity is acting on the orange d) the orange is in a state of freefall e) even if someone pushed on the orange, it would not move 15) A car on an icy road takes a corner too fast and ...
... a) no forces are acting on the orange b) all forces acting on the orange cancel each other out c) only the force of gravity is acting on the orange d) the orange is in a state of freefall e) even if someone pushed on the orange, it would not move 15) A car on an icy road takes a corner too fast and ...
Newton`s Laws of Motion
... Sir Isaac Newton (1643-1727) an English scientist and mathematician famous for his discovery of the law of gravity also discovered the three laws of motion. He published them in his book Philosophiae Naturalis Principia Mathematica (mathematic principles of natural philosophy) in 1687. Today these l ...
... Sir Isaac Newton (1643-1727) an English scientist and mathematician famous for his discovery of the law of gravity also discovered the three laws of motion. He published them in his book Philosophiae Naturalis Principia Mathematica (mathematic principles of natural philosophy) in 1687. Today these l ...
Name______________ _________Date____________ General
... speed in a straight line, unless acted upon by an unbalanced force. 4|Page ...
... speed in a straight line, unless acted upon by an unbalanced force. 4|Page ...