Earthquakes
... When the stored energy exceeds the strength of the crust, the crust ruptures The rupture generally occurs along faults because this is the weakest point The sudden return of elastically deformed rock to its original shape Occurs when more stress is applied to rock than the rock can withstand Energy ...
... When the stored energy exceeds the strength of the crust, the crust ruptures The rupture generally occurs along faults because this is the weakest point The sudden return of elastically deformed rock to its original shape Occurs when more stress is applied to rock than the rock can withstand Energy ...
DO PHYSICS ONLINE SPACE PROJECTILE MOTION
... From Newton’s Second law, FG = m ay = m g, we can conclude that near the Earth’s surface, the acceleration due to gravity is constant ...
... From Newton’s Second law, FG = m ay = m g, we can conclude that near the Earth’s surface, the acceleration due to gravity is constant ...
Newton`s Three Laws of Motion
... or any action that has the ability to change motion of an object. • The metric unit used to describe force is called the Newton (N). One Newton is equal to: 1 Kg x 1 m/s/s Thus, one Newton of force causes a one kilogram object to accelerate at a rate of one meter per second squared. ...
... or any action that has the ability to change motion of an object. • The metric unit used to describe force is called the Newton (N). One Newton is equal to: 1 Kg x 1 m/s/s Thus, one Newton of force causes a one kilogram object to accelerate at a rate of one meter per second squared. ...
earthquake
... Cause of Earthquakes Aftershocks and Foreshocks • An aftershock is a small earthquake that follows the main earthquake. • A foreshock is a small earthquake that often precedes a major earthquake. (fore = before) • The San Andreas Fault is the most studied fault system. Small EQs are used to predic ...
... Cause of Earthquakes Aftershocks and Foreshocks • An aftershock is a small earthquake that follows the main earthquake. • A foreshock is a small earthquake that often precedes a major earthquake. (fore = before) • The San Andreas Fault is the most studied fault system. Small EQs are used to predic ...
Law of Conservation of Momentum
... pTOTAL (i ) pTOTAL ( f ) Momentum can be transferred from one part of a system to another, but the total amount remains constant. Momentum is conserved during any interaction among objects – collisions, explosions, etc. – since these interactions involve INTERNAL impulses (one part of the system ...
... pTOTAL (i ) pTOTAL ( f ) Momentum can be transferred from one part of a system to another, but the total amount remains constant. Momentum is conserved during any interaction among objects – collisions, explosions, etc. – since these interactions involve INTERNAL impulses (one part of the system ...
Circular Motion and Gravitation Notes 1 – Centripetal Acceleration
... This unit we will investigate the special case of kinematics and dynamics of objects in uniform circular motion. First let’s consider a mass on a string being twirled in a horizontal circle at a constant speed. Let’s determine the speed of the object. Remember that speed is defined as: We define the ...
... This unit we will investigate the special case of kinematics and dynamics of objects in uniform circular motion. First let’s consider a mass on a string being twirled in a horizontal circle at a constant speed. Let’s determine the speed of the object. Remember that speed is defined as: We define the ...
PowerPoint: Physics Word Problem Review Part 2
... force) between two objects when the distance between them increases? decreases? Newton’s Law of Universal Gravitation tells us the relationship of distance and mass on the gravitational force ...
... force) between two objects when the distance between them increases? decreases? Newton’s Law of Universal Gravitation tells us the relationship of distance and mass on the gravitational force ...
Part VI
... • The curve shows the path moved by a point on the rim of the object. This path is called a cycloid • The line shows the path of the center of mass of the object • In pure rolling motion, an object rolls without slipping • In such a case, there is a simple relationship between its rotational and tra ...
... • The curve shows the path moved by a point on the rim of the object. This path is called a cycloid • The line shows the path of the center of mass of the object • In pure rolling motion, an object rolls without slipping • In such a case, there is a simple relationship between its rotational and tra ...
What are forces?
... Gravity is a force that causes an acceleration On earth, ALL objects accelerate at 9.8m/s2 (ignoring air resistance) because of gravity. No matter what the mass, ALL objects on earth accelerate at 9.8 m/s2 ...
... Gravity is a force that causes an acceleration On earth, ALL objects accelerate at 9.8m/s2 (ignoring air resistance) because of gravity. No matter what the mass, ALL objects on earth accelerate at 9.8 m/s2 ...
Newton`S Laws Guided Notes
... Today these laws are known as Newton’s __________of ___________ and describe _____________________________________________________________ _____________________________________________________________ _________________________________________________. Newton’s 1st Law: An object at rest will _______ ...
... Today these laws are known as Newton’s __________of ___________ and describe _____________________________________________________________ _____________________________________________________________ _________________________________________________. Newton’s 1st Law: An object at rest will _______ ...
Chapter 3 Notepacket
... b. Has ten times less volume than 10 kg of matter c. Has ten times more inertia than 10 kg of matter d. Is attracted to earth with 10 N of force e. 3. The Earth moves about 30 km/s relative to the sun. But when you jump upward in front of a wall, the wall doesn’t slam into you at 30 km/s. A good exp ...
... b. Has ten times less volume than 10 kg of matter c. Has ten times more inertia than 10 kg of matter d. Is attracted to earth with 10 N of force e. 3. The Earth moves about 30 km/s relative to the sun. But when you jump upward in front of a wall, the wall doesn’t slam into you at 30 km/s. A good exp ...