Document
... A lightweight crate (A) and a heavy crate (B) are side-by-side on a frictionless horizontal surface. You are applying a horizontal force F to crate A. Which of the following forces should be included in a free-body diagram for crate B? ...
... A lightweight crate (A) and a heavy crate (B) are side-by-side on a frictionless horizontal surface. You are applying a horizontal force F to crate A. Which of the following forces should be included in a free-body diagram for crate B? ...
forces_and_energy_review
... Friction: A force that opposes motion between two surfaces that are in contact. Weight: The mass of an object with respect to gravitational pull. Speed: The distance traveled divided by the time interval during which the motion occurred. Velocity: The speed of an object in a particular direction. Fo ...
... Friction: A force that opposes motion between two surfaces that are in contact. Weight: The mass of an object with respect to gravitational pull. Speed: The distance traveled divided by the time interval during which the motion occurred. Velocity: The speed of an object in a particular direction. Fo ...
Forces and Motion
... B. Weight is the gravitational force between an object and Earth. C. Friction is a natural force that can slow down a motion. D. Speed measures how fast an object is moving and in what direction the object is moving towards. ...
... B. Weight is the gravitational force between an object and Earth. C. Friction is a natural force that can slow down a motion. D. Speed measures how fast an object is moving and in what direction the object is moving towards. ...
Force
... The mass of an object refers to the amount of matter that is contained by the object. The weight of an object is the force of gravity acting upon that object. Mass is related to how much stuff is there and weight is related to the pull of the Earth. ...
... The mass of an object refers to the amount of matter that is contained by the object. The weight of an object is the force of gravity acting upon that object. Mass is related to how much stuff is there and weight is related to the pull of the Earth. ...
Newton`s 3rd Law of Motion
... Newton’s 2nd Law (a = F/m) • Newton’s second law is responsible for explaining how objects increase or decrease in speed, or change direction. • If the force is increased, the object will accelerate. • If the mass is increased, the object will accelerate more slowly. • When an object changes direct ...
... Newton’s 2nd Law (a = F/m) • Newton’s second law is responsible for explaining how objects increase or decrease in speed, or change direction. • If the force is increased, the object will accelerate. • If the mass is increased, the object will accelerate more slowly. • When an object changes direct ...
Newton`s Laws of Motion
... These pumpkins will not move unless acted on by an unbalanced force. ...
... These pumpkins will not move unless acted on by an unbalanced force. ...
Expectations for Ch 2 & 3
... analyzed in several ways ¤ How coordinate systems can be used in motion studies ¤ Terms such as displacement, magnitude, vectors ...
... analyzed in several ways ¤ How coordinate systems can be used in motion studies ¤ Terms such as displacement, magnitude, vectors ...
Centripetal Force
... cpforce at the top of the loop ( ST ) • The rest of the cpforce is provided by the weight of the rider ...
... cpforce at the top of the loop ( ST ) • The rest of the cpforce is provided by the weight of the rider ...
Investigating g On Other Planets Virtual Lab
... Discussion: A __________is any push or pull on an object and is measured in Newtons. ______________ forces are forces that are equal and opposite. ________________forces can cause a change in motion. According to Newton’s 2nd Law of Motion, if a net force is applied to an object, the object will ___ ...
... Discussion: A __________is any push or pull on an object and is measured in Newtons. ______________ forces are forces that are equal and opposite. ________________forces can cause a change in motion. According to Newton’s 2nd Law of Motion, if a net force is applied to an object, the object will ___ ...
Force Equations
... The same because the inertia is the same. Mass stays the same, therefore inertia is the same. ...
... The same because the inertia is the same. Mass stays the same, therefore inertia is the same. ...