Power point summary
... • Mass and acceleration are proportional to the force – If mass or acceleration increases – the force will also increase – If the force decreases - mass or acceleration decreases – This is called a directionally proportional ...
... • Mass and acceleration are proportional to the force – If mass or acceleration increases – the force will also increase – If the force decreases - mass or acceleration decreases – This is called a directionally proportional ...
Gravity PowerPoint Notes
... objects depends on two factors: • 1. masses of the objects (If mass increases, force also increases) • 2. distance between the objects (If distance increases, force decreases) ...
... objects depends on two factors: • 1. masses of the objects (If mass increases, force also increases) • 2. distance between the objects (If distance increases, force decreases) ...
Gravitation 1 Solutions
... The mass of Io is 8.93 × 1022 kilograms and the mass of Jupiter is 1.90 × 1027 kilograms. The distance between the centers of Io and Jupiter is 4.22 × 108 meters. Calculate the magnitude of the acceleration of Io due to the gravitational force exerted by Jupiter. 1. a = 7.12 m/s2 2. a = 0.0712 ...
... The mass of Io is 8.93 × 1022 kilograms and the mass of Jupiter is 1.90 × 1027 kilograms. The distance between the centers of Io and Jupiter is 4.22 × 108 meters. Calculate the magnitude of the acceleration of Io due to the gravitational force exerted by Jupiter. 1. a = 7.12 m/s2 2. a = 0.0712 ...
Introduction The concept of gravitational force was
... 3. By using the value of acceleration due to gravity, g, a person’s reaction time can be determined. In (a) Alex drops a ruler (without warning) just above Rosdi’s hand. Rosdi grasps the falling ruler as quickly as possible, and the length of the ruler below his tumb is recorded. The length of the ...
... 3. By using the value of acceleration due to gravity, g, a person’s reaction time can be determined. In (a) Alex drops a ruler (without warning) just above Rosdi’s hand. Rosdi grasps the falling ruler as quickly as possible, and the length of the ruler below his tumb is recorded. The length of the ...
Space #2
... Outline Newton's concept of escape velocity: Explanation: o Newton predicted that an object projected horizontally from a high mountain would undergo projectile motion as shown in the above diagram o If the velocity of the projectile was increased enough, a speed would be reached where the object wo ...
... Outline Newton's concept of escape velocity: Explanation: o Newton predicted that an object projected horizontally from a high mountain would undergo projectile motion as shown in the above diagram o If the velocity of the projectile was increased enough, a speed would be reached where the object wo ...
Circular Motion Name: Date: 1. A ball rolls down a curved ramp as
... position shown, the path the object will travel from this position will be A. ...
... position shown, the path the object will travel from this position will be A. ...
pptx
... 2) v (velocity): a body’s speed and direction 3) a (acceleration): the change in a body’s velocity 4) F (force): what is needed to change a body’s velocity ...
... 2) v (velocity): a body’s speed and direction 3) a (acceleration): the change in a body’s velocity 4) F (force): what is needed to change a body’s velocity ...
Review: Newton`s second Law
... (2)Sketch forces acting on object – indentify all the external forces acting on an object. (3) Choose coordinate system (x &y) (4) Resolve into components Apply 2nd law to each components. In components Fy ma y Fx ma x ...
... (2)Sketch forces acting on object – indentify all the external forces acting on an object. (3) Choose coordinate system (x &y) (4) Resolve into components Apply 2nd law to each components. In components Fy ma y Fx ma x ...
Notes Forces- Gravitational, Mag., Elec. File
... We live in what is essentially a uniform gravitational field. This means that the force of gravity near the surface of the Earth is pretty much constant in magnitude and direction. The green lines are gravitational field lines. They show the direction of the gravitational force on any object in the ...
... We live in what is essentially a uniform gravitational field. This means that the force of gravity near the surface of the Earth is pretty much constant in magnitude and direction. The green lines are gravitational field lines. They show the direction of the gravitational force on any object in the ...
PhysicsSG-Gravitation-91109R
... crushing the atoms out of existence. Under these extreme conditions, the protons and electrons can be squeezed together to form neutrons. If the collapse is halted when the neutrons all come into contact with each other, the result is an object called a neutron star, an entire star consisting of sol ...
... crushing the atoms out of existence. Under these extreme conditions, the protons and electrons can be squeezed together to form neutrons. If the collapse is halted when the neutrons all come into contact with each other, the result is an object called a neutron star, an entire star consisting of sol ...
Newton`s 1st Law
... The force needed to keep an object sliding is equal to but opposite in direction of the frictional force – the vector sum is zero Inertia - what Galileo called the tendency of an object to maintain its initial state ...
... The force needed to keep an object sliding is equal to but opposite in direction of the frictional force – the vector sum is zero Inertia - what Galileo called the tendency of an object to maintain its initial state ...
Weight - University of Iowa Physics
... to fall down the inclined plane. • He found that different masses take the same time to fall down the inclined plane. • Since they all fall the same distance, he concluded that their accelerations must also be the same. • By using different distances he was able to discover the relation between time ...
... to fall down the inclined plane. • He found that different masses take the same time to fall down the inclined plane. • Since they all fall the same distance, he concluded that their accelerations must also be the same. • By using different distances he was able to discover the relation between time ...