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The answer depends on what kind of pressure. If you mean the pressure exerted by gasses on the walls of a container (a balloon, for example), pressure is created by the motion of the molecules of gas. Temperature and density of the molecules are factors. Higher density results in higher pressure. Higher temperature creates more molecular motion, thereby creating higher pressure.
If the balloon accelerates (changes its speed), then that means that forces act on it. If any object "does not follow" Newton's First Law, that means that the conditions are not fulfilled - the conditions being that no net force acts on an object.
the motion of the molecules would slow down
because we see that in simple harmonic motion there are trignometric function from which we can define its equation of motion. now we know that these function are periodically but bounded to some conditions that's why all periodic function can not be simple harmonic motions.
An ND filter is and abbreviation for a Neutral density filter. An ND filter is used by photographers to change the aperture, exposure time and motion blur of a subject or landscape.
accelration velosity
In actual conditions, a pendulum's motion can be seen as periodic, but decaying.
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When you pushing motion is happening tbh !!!
The substance's state (solid / liquid / gas), density, temperature, etc, is determined by motion and spacing of particles.
Solid has -Defined Shape -Defined Volume The particle motion is as, they can vibrate, but they can't actually move from one place to another. The denisty is.. D=M/V Density = mass/volume
Composition, relative motion, temperature, and density.
The three factors that set convection currents in motion are: the heating and cooling of fluid, change in its density, and the force of gravity combine to set it in motion.
conditions when friction occurs to retired/resist motuio
same speed. no change in direction
The three factors that set convection currents in motion are: the heating and cooling of fluid, the change in it's density, and the force of gravity.
No. Regardless of its initial speed, the object still experiences downward acceleration at the rate of 'G'.