Relationships between linear and angular motion Examples
... • Example specific to your interests: ...
... • Example specific to your interests: ...
Laws of motion Power Point
... Newton’s 2nd Law of Motion - Continued The acceleration for any object moving under the sole influence of gravity. Any moving object being acted upon only by the force of gravity is said to be "in a state of free fall." ...
... Newton’s 2nd Law of Motion - Continued The acceleration for any object moving under the sole influence of gravity. Any moving object being acted upon only by the force of gravity is said to be "in a state of free fall." ...
A Newton`s 2nd Law
... b) Find the time that has elapsed when the body is moving parallel to the vector i. (3 marks) 3. A boy of mass 40 kg stands in a lift. Find the force exerted by the floor of the lift on the boy when a) the lift is moving upwards with constant speed, (2 marks) b) the lift is moving downwards with acc ...
... b) Find the time that has elapsed when the body is moving parallel to the vector i. (3 marks) 3. A boy of mass 40 kg stands in a lift. Find the force exerted by the floor of the lift on the boy when a) the lift is moving upwards with constant speed, (2 marks) b) the lift is moving downwards with acc ...
Blank Jeopardy - the Mining Quiz List
... All objects in circular motion move faster on the edge of the circle or in the middle? The edge ...
... All objects in circular motion move faster on the edge of the circle or in the middle? The edge ...
vector - Haiku
... defining the direction, and the length of the arrow defines the vector's magnitude. This is shown above. If we denote one end of the arrow by the origin O and the tip of the arrow by Q. Then the vector may be represented algebraically by OQ. ...
... defining the direction, and the length of the arrow defines the vector's magnitude. This is shown above. If we denote one end of the arrow by the origin O and the tip of the arrow by Q. Then the vector may be represented algebraically by OQ. ...
Motion, Forces &Machines PowerPoint presentation
... the rocket or how fast it went? • Both of those questions can be related to motion , forces and mechanics. ...
... the rocket or how fast it went? • Both of those questions can be related to motion , forces and mechanics. ...
PowerPoint
... removing dirt from your shoes by stamping on the porch before entering a house or removing dust from a coat by shaking it? ...
... removing dirt from your shoes by stamping on the porch before entering a house or removing dust from a coat by shaking it? ...
Wednesday, September 19, 2007
... Do these yourselves at home for fun!!! Wednesday, Sept. 19, 2007 ...
... Do these yourselves at home for fun!!! Wednesday, Sept. 19, 2007 ...
Standard Physics Final Exam Review Guide
... 1) Mary lifts a 15 kg mass from a height of 0m to a height of 5m. a) What type of mechanical energy does the mass gain? b) What is the change in energy of the mass? c) How much work does Mary do? 2) Mary drops her 2 kg book from a height of 10 m. Calculate the potential and kinetic energy of the wei ...
... 1) Mary lifts a 15 kg mass from a height of 0m to a height of 5m. a) What type of mechanical energy does the mass gain? b) What is the change in energy of the mass? c) How much work does Mary do? 2) Mary drops her 2 kg book from a height of 10 m. Calculate the potential and kinetic energy of the wei ...
Physics XI 1 A particle of mass 200 kg is displaced horizontal
... inclined at an angle of 60 degrees with the horizontal with a force of 100 N. Calculate the work done. What is the work done if the friction of 0.5 is introduced. Can this work be reclaimed? What is the work done by frictional force in this case. ...
... inclined at an angle of 60 degrees with the horizontal with a force of 100 N. Calculate the work done. What is the work done if the friction of 0.5 is introduced. Can this work be reclaimed? What is the work done by frictional force in this case. ...
Due , ______ pts Name Hour ______ p
... m1 v1i + m2 v2i = m1 v1f + m2 v2f inelastic collisions: m1 v1i + m2 v2i = (m1 + m2 ) vf Conceptual Questions: 1. a. What is unit for momentum (what it’s measured in) ? ____________ b. What is the variable (letter) we use for momentum? _____ c. If you divide momentum by velocity, what variable will y ...
... m1 v1i + m2 v2i = m1 v1f + m2 v2f inelastic collisions: m1 v1i + m2 v2i = (m1 + m2 ) vf Conceptual Questions: 1. a. What is unit for momentum (what it’s measured in) ? ____________ b. What is the variable (letter) we use for momentum? _____ c. If you divide momentum by velocity, what variable will y ...
