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What interpretation can you derive regarding the motion from the graph of instantaneous speed vs time graph?
Wiki User
∙ 14y ago
Wiki User
∙ 14y ago
The slope of the instantaneous speed vs. time graph gives the acceleration of the object. A horizontal line indicates constant speed, a positive slope indicates acceleration, and a negative slope indicates deceleration. Changes in the slope indicate changes in acceleration.
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Will the graph of instantaneous velocity versus time have a Y-axis intercept of zero?
Not necessarily. The graph of instantaneous velocity versus time may or may not have a Y-axis intercept of zero. It depends on the initial conditions and motion of the object. If the object starts from rest, then the initial velocity is zero, and the graph will have a Y-axis intercept at zero.
The production of an instantaneous dipole in London dispersion?
In London dispersion forces, the motion of electrons within atoms/molecules can lead to the temporary creation of an instantaneous dipole moment. This temporary dipole induces a similar dipole in neighboring atoms/molecules, resulting in a weak attractive force between them. These forces are important in non-polar molecules and contribute to their overall intermolecular interactions.
Is it true regarding the motion of liquid water molecules and ice molecules?
Yes, liquid water molecules have higher kinetic energy and are constantly moving and sliding past each other, while ice molecules are more tightly packed and vibrate in fixed positions. This difference in motion and arrangement is what distinguishes the solid ice state from the liquid water state.
What maintains the speed of earth as it moves in its orbirt around the sun?
Inertia; the laws of motion and gravity (if you are talking Newtonian classical mechanics) the deformation of space due to mass (if you adhere to Einstein's interpretation)
What is true of newtons first law the law of inerita?
Regarding Newton's first law the law of inerita, it is true to say that it describes the motion when a net force is zero:d -ajizzle my nizzle.
When will the average velocity be equal to instantaneous velocity?
In uniform motion.
When will the average velocity be equl to instantaneous velocity?
In uniform motion.
In which type of motion is the average velocity of an object equal to its instantaneous velocity?
The average velocity of an object is equal to its instantaneous velocity in uniform motion. Uniform motion occurs when an object moves at a constant speed in a straight line, resulting in a constant velocity throughout the motion.
Can the average speed ever equal the instantaneous speed?
When there is no acceleration or when there is constant acceleration. When either of these cases is present, the graph of velocity versus time will be linear. When there is linear velocity, the average velocity will equal the instantaneous velocity at any point on the graph.
Can the average velocity of a body be the same as the instantaneous velocity?
Yes, but in uniform motion.
When average velocity is equal to its instantaneous velocity acceleration?
you are still. motion is at rest.
What are the two examples of motion in which the instantaneous speed changes?
Acceleration and deceleration are two examples of motion in which the instantaneous speed changes. Acceleration occurs when an object speeds up, while deceleration occurs when an object slows down.
What does the slope of a distance vs time graph indicate about an object's motion?
instantaneous velocity
Consider the instantaneous velocity of a body this velocity is always in the direction of what the net force at that instant the least resistance at that instant or the motion at that instant?
The instantaneous velocity of a body is always in the direction of the resultant force acting on it at that instant. It is influenced by the net force and not necessarily by the least resistance or the current motion of the body.
Who was able to explain the reason for Kepler's laws?
That was Isaac Newton. He was able to derive Kepler's laws of planetary motion from his own equations regarding gravity, showing that the same rules apply to the motion of objects on Earth and to the motion of celestial bodies.
How do you derive newton's third law of motion from second law of motion?
You cannot. Newton's third law is independent of the first and second laws.
Is it true or false that For a particle undergoing uniform circular motion the instantaneous-acceleration vector equals zero.?
False. In uniform circular motion, the instantaneous acceleration is directed towards the center of the circle, which is called the centripetal acceleration. This acceleration is responsible for changing the direction of the velocity of the particle, even though its speed remains constant.
