II. Forces
... in motion tends to remain in motion in a straight-line path unless acted on by an unbalanced force. a. Inertia is another word for mass. The more mass an object has, the greater its tendency to maintain its current state. Click here for video clip b. Applications: i. People are often thrown from aut ...
... in motion tends to remain in motion in a straight-line path unless acted on by an unbalanced force. a. Inertia is another word for mass. The more mass an object has, the greater its tendency to maintain its current state. Click here for video clip b. Applications: i. People are often thrown from aut ...
Physics Benchmark Exam #1 2008-2009
... B The scale reading will increase momentarily then will decrease as the student is moving upward from the scale. C The scale reading will increase during the entire time the student is in contact with the scale. D The scale reading will decrease momentarily then will increase as the student is movin ...
... B The scale reading will increase momentarily then will decrease as the student is moving upward from the scale. C The scale reading will increase during the entire time the student is in contact with the scale. D The scale reading will decrease momentarily then will increase as the student is movin ...
Chapter 1 - Lemon Bay High School
... ______________________________ is a friction force that acts on objects that are not moving. The SI unit of force, equal to the force that causes a 1-kilogram mass to accelerate at a rate of 1 meter per second squared is known as a ...
... ______________________________ is a friction force that acts on objects that are not moving. The SI unit of force, equal to the force that causes a 1-kilogram mass to accelerate at a rate of 1 meter per second squared is known as a ...
UConn1201QFall2010 - BHS Science Department
... 6. An oil spill on the ocean is sometimes modeled as having a velocity that has two components: a wind induced velocity that is 3% of the true wind velocity and an independent tidal velocity Vtidal. The tidal velocity is 3.0 km/hr due north and V wind = 40 km/hr 20 degrees north of east. In six hour ...
... 6. An oil spill on the ocean is sometimes modeled as having a velocity that has two components: a wind induced velocity that is 3% of the true wind velocity and an independent tidal velocity Vtidal. The tidal velocity is 3.0 km/hr due north and V wind = 40 km/hr 20 degrees north of east. In six hour ...
Static Friction
... 1. Choose a cart, and measure its mass use the balance at the front of the classroom. Circle the cart used, and record the mass in the data table. 2. Connect the Dual-Range Force Sensor to Channel 1 of the interface. Set the range switch on the Force Sensor to 50 N. 3. Open the file “12a Static Kine ...
... 1. Choose a cart, and measure its mass use the balance at the front of the classroom. Circle the cart used, and record the mass in the data table. 2. Connect the Dual-Range Force Sensor to Channel 1 of the interface. Set the range switch on the Force Sensor to 50 N. 3. Open the file “12a Static Kine ...
First Semester Final Practice
... 12. A lunar month is about 28 days. If the moon were closer to Earth than it is now, the lunar month would be.. (a) less than 28 days. (b) more than 28 days. (c) unchanged at 28 days. ...
... 12. A lunar month is about 28 days. If the moon were closer to Earth than it is now, the lunar month would be.. (a) less than 28 days. (b) more than 28 days. (c) unchanged at 28 days. ...
Homework No. 07 (2014 Fall) PHYS 320: Electricity and Magnetism I
... Use these to find the force on a point charge due to a point dipole. (c) Confirm that above two forces are equal in magnitude and opposite in direction, as per Newton’s third law. 2. (40 points.) (Based on Griffiths 3rd/4th ed., Problem 4.8.) We showed in class that the electric field of a point dip ...
... Use these to find the force on a point charge due to a point dipole. (c) Confirm that above two forces are equal in magnitude and opposite in direction, as per Newton’s third law. 2. (40 points.) (Based on Griffiths 3rd/4th ed., Problem 4.8.) We showed in class that the electric field of a point dip ...
Unit 1 Problem Set
... 3.10 A hockey puck is hit on a frozen lake and starts moving with a speed of 12.0 m/s. Five seconds later, its speed is 6.00 m/s. (a) What is its average acceleration? (b) What is the average value of the coefficient of kinetic friction between puck and ice? (c) How far does the puck travel during t ...
... 3.10 A hockey puck is hit on a frozen lake and starts moving with a speed of 12.0 m/s. Five seconds later, its speed is 6.00 m/s. (a) What is its average acceleration? (b) What is the average value of the coefficient of kinetic friction between puck and ice? (c) How far does the puck travel during t ...
Circular Motion / Universal Gravitation concept WS (honors)
... 14) If you were to travel to the moon, you would cross a certain spot at which the net gravitational force on you (from the earth and the moon anyway) would be zero. Where would this spot be located; closer to earth, closer to the moon, or equal distance from both? Explain. Since the earth is much ...
... 14) If you were to travel to the moon, you would cross a certain spot at which the net gravitational force on you (from the earth and the moon anyway) would be zero. Where would this spot be located; closer to earth, closer to the moon, or equal distance from both? Explain. Since the earth is much ...
Word
... 14) If you were to travel to the moon, you would cross a certain spot at which the net gravitational force on you (from the earth and the moon anyway) would be zero. Where would this spot be located; closer to earth, closer to the moon, or equal distance from both? Explain. Since the earth is much ...
... 14) If you were to travel to the moon, you would cross a certain spot at which the net gravitational force on you (from the earth and the moon anyway) would be zero. Where would this spot be located; closer to earth, closer to the moon, or equal distance from both? Explain. Since the earth is much ...
Lab3_Force_Table
... 3) Place each pulley at the angle indicated in the Data Table. For example, for Part 1 place a pulley at 60° and 120°. Then take your ring with the strings attached and place it at the center of the table with the pin coming through the ring. Place a string over each pulley and hang the appropriate ...
... 3) Place each pulley at the angle indicated in the Data Table. For example, for Part 1 place a pulley at 60° and 120°. Then take your ring with the strings attached and place it at the center of the table with the pin coming through the ring. Place a string over each pulley and hang the appropriate ...
Electrostatics - seniorphysicscranson
... • Any charge that is present on the surface of any isolated sphere. – Acts as if it were located in the center of the sphere. • The same way gravity acts from the center, even though mass is all around us. ...
... • Any charge that is present on the surface of any isolated sphere. – Acts as if it were located in the center of the sphere. • The same way gravity acts from the center, even though mass is all around us. ...