Chapter 3 - Mrs. Wiedeman
... How would you throw a long pass with a football? Anything that has mass is attracted by gravity Gravity: attractive force between two objects that depends on masses and distance Stronger force? More mass/closer together ...
... How would you throw a long pass with a football? Anything that has mass is attracted by gravity Gravity: attractive force between two objects that depends on masses and distance Stronger force? More mass/closer together ...
Newton`s Laws
... Every object continues in its state of rest, or of motion in a straight line at constant speed, unless compelled to change that state by forces exerted on it. Also called Law of Inertia: things move according to their own inertia Things keep on doing what they are doing Examples: Hockey puck on ice, ...
... Every object continues in its state of rest, or of motion in a straight line at constant speed, unless compelled to change that state by forces exerted on it. Also called Law of Inertia: things move according to their own inertia Things keep on doing what they are doing Examples: Hockey puck on ice, ...
Semester 2 Study Guide rtf
... 3. Fluorine, chlorine, bromine, and iodine are part of a family called a. noble gases. b. metalloids. c. halogens. d. alkali metals. 4. The tendency of an object to resist change in its motion is known as a. mass. b. inertia. c. force. d. balance. 5. The force of gravity on a person or object on the ...
... 3. Fluorine, chlorine, bromine, and iodine are part of a family called a. noble gases. b. metalloids. c. halogens. d. alkali metals. 4. The tendency of an object to resist change in its motion is known as a. mass. b. inertia. c. force. d. balance. 5. The force of gravity on a person or object on the ...
Newtons First Law
... The force of Earth’s gravity causes all objects to accelerate at the same rate when falling The rate is 9.8M/S2 ...
... The force of Earth’s gravity causes all objects to accelerate at the same rate when falling The rate is 9.8M/S2 ...
Practice Math Problems for chapter 6
... m/s. How long was it falling for? time = ∆Velocity ÷ gravity ∆ velocity = velocityfinal – velocityinitial Time = (Vf – Vi) ÷ gravity Time = (29.4 m/s – 0 m/s) ÷ 9.8 m/s Time = 3 s ...
... m/s. How long was it falling for? time = ∆Velocity ÷ gravity ∆ velocity = velocityfinal – velocityinitial Time = (Vf – Vi) ÷ gravity Time = (29.4 m/s – 0 m/s) ÷ 9.8 m/s Time = 3 s ...
Powerpoint
... judged on how close you arrive at the finish line to a specific time. At the last pit stop, you are given the following directions for the last leg of the race: • Drive East at 50 MPH for 30 minutes and • Then go 30 degrees East of North for 45 minutes at 60 MPH 1. What would be your average speed f ...
... judged on how close you arrive at the finish line to a specific time. At the last pit stop, you are given the following directions for the last leg of the race: • Drive East at 50 MPH for 30 minutes and • Then go 30 degrees East of North for 45 minutes at 60 MPH 1. What would be your average speed f ...
Chapter 6: Newton`s third law of motion – action and
... A ball is dropped off of a building and falls to the ground. Earth exerts a force on the ball (the force of gravity). In turn, the ball exerts a force on earth. The force that the ball exerts on earth is the same as the force that earth exerts on the ball. The ball accelerates toward earth as a resu ...
... A ball is dropped off of a building and falls to the ground. Earth exerts a force on the ball (the force of gravity). In turn, the ball exerts a force on earth. The force that the ball exerts on earth is the same as the force that earth exerts on the ball. The ball accelerates toward earth as a resu ...
