Keywords: Acceleration
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Displaying 1-20 of 138 results.
2D Motion
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Abstract: Learn about velocity and acceleration vectors. Move the ball with the mouse or let the simulation move the ball in four types of motion (two types of linear, simple harmonic, circle). See the velocity and acceleration vectors change as the ball moves.
Accelerated motion in one dimension
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Abstract: The nature of acceleration is determined by the net external force for constant mass system. Depending on the nature of force, there exists wide range of possibilities like zero, constant or varying accelerations in one dimensional motion.
Accelerated motion in one dimension (application)
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Abstract: Solving problems is an essential part of the understanding process.
Accelerated motion in two dimensions
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Abstract: Motion in two dimensions with one dimensional acceleration (projectile) is analyzed with component motions in coordinate system, whereas motion in two dimensions with two dimensional acceleration (circular motion) is analyzed with the help of component accelerations - tangential and normal accelerations.
Accelerated motion in two dimensions (application)
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| Type: | Course Related Materials |
Abstract: Solving problems is an essential part of the understanding process.
Acceleration
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Abstract: The rate of change of velocity with time is called acceleration. Most of the real time examples of motion are accelerated in variety of ways - despite the fact that the basic nature of the matter is to maintain its velocity in both direction and magnitude
Analysis framework for laws of motion
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Abstract: A planned approach to problems is essential to effectively apply laws of motion.
Analysis of resultant motion
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Abstract: Analysis of resultant motion is best fit to the principle of independence of motion in mutually perpendicular directions.
Analyzing collision
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Abstract: Analyzing collision situation involves application of basic conservation principles in a closed system.
Angular momentum
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Abstract: The angular momentum in rotation is a subset of angular momentum about a point in general motion.
Angular momentum (check your understanding)
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Abstract: Objective questions, contained in this module with hidden solutions, help improve understanding of the topics covered under the module "Angular momentum".
Angular quantities for general motion
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Abstract: Angular quantities are not limited to rotation about fixed axis only.
Attributes of motion
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Abstract: Negative vector is a relative term - not an independent concept. We completely loose the significance of a negative vector when we consider it in isolation. A negative vector assumes meaning only in relation with another vector or some reference direction.
Attributes of one dimensional motion
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| Type: | Course Related Materials |
Abstract: One dimensional attributes need careful interpretation because a vector quantity, inherently different to scalar, is represented by a signed scalar (positive or negative) quantity with superimposed notions of two concepts (scalar and velocity).
Balanced force system
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Abstract: Resultant of a balanced force system is zero.
Center of mass
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| Type: | Course Related Materials |
Abstract: There is a characteristic geometric point of the three dimensional body in motion, which behaves yet as a particle.
Center of mass and rigid bodies
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Abstract: Under certain condition, COM of rigid bodies is same as geometric center.
Center of mass (check your understanding)
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| Type: | Course Related Materials |
Abstract: Objective questions, contained in this module with hidden solutions, help improve understanding of the topics covered in the modules "Center of mass" and "Center of mass and rigid bodies".
Circular motion and rotational kinematics (application)
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| Type: | Course Related Materials |
Abstract: Solving problems is an essential part of the understanding process.
Circular motion with constant acceleration
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| Type: | Course Related Materials |
Abstract: The circular motion with constant acceleration allows constructing an equivalent linear system with the help of angular quantities.