Want this question answered?
The fundamental descriptors of waves are, wavelength, frequency, amplitude, and velocity.
There are fundamental errors in the question. A particle is three dimentional and cannot exist in a one dimentional universe, nor can velocity.
As far as we can tell, it doesn't. Momentum is defined as (mass) times (velocity). There appear to be only two ways in which momentum can decrease: either the mass has to magically evaporate, or else the velocity has to decrease. Since mass conservation is a nearly fundamental law of nature, that leaves us with velocity as the only way to change the momentum of a moving body.
What are the SI units used to measure acceleration.
I suppose you mean "inertia". That is the tendency of an object to remain at rest if it is resting, or to keep moving (at a constant velocity) if it is moving.
Fundamental burning velocity of CO is 46 cm/sec from Table D.1(a) of NFPA 68 "Standard on Explosion Protection by Deflagration Venting - 2007 Edition"
The fundamental descriptors of waves are, wavelength, frequency, amplitude, and velocity.
There are fundamental errors in the question. A particle is three dimentional and cannot exist in a one dimentional universe, nor can velocity.
Volume is a fundamental quality because of volume per mass. Other familiar fundamental qualities include mass, velocity, speed, m3, cubic meter, and density.AnswerThere is no such thing as a 'fundamental unit' in SI. Units are either 'base units' or 'derived units'. In SI, volume is measured in cubic metres, where the metre is the base unit of length.
Volume is a fundamental quality because of volume per mass. Other familiar fundamental qualities include mass, velocity, speed, m3, cubic meter, and density.AnswerThere is no such thing as a 'fundamental unit' in SI. Units are either 'base units' or 'derived units'. In SI, volume is measured in cubic metres, where the metre is the base unit of length.
It is a derived unit. It measure distance traveled per unit of time. For example meter per second or m/s. Speed or velocity as it is sometimes called is derived from the units for distance and time.
As far as we can tell, it doesn't. Momentum is defined as (mass) times (velocity). There appear to be only two ways in which momentum can decrease: either the mass has to magically evaporate, or else the velocity has to decrease. Since mass conservation is a nearly fundamental law of nature, that leaves us with velocity as the only way to change the momentum of a moving body.
It depends entirely on what you want to measure. For length it's meter, for weight it's kg, for velocity it's m/s, etc.
What are the SI units used to measure acceleration.
When equivalence ratio increase, the actual air-fuel ratio decrease, which mean the mass flow rate of air is decrease. So, the volume flow rate of air is dercreasing and its mean the velocity is decreasing.
Because the engines are burning large amounts of fuel and oxidizer every second (in some rockets as much as ten tons per second) and ejecting the products of this burning at high velocity to generate thrust.
I suppose you mean "inertia". That is the tendency of an object to remain at rest if it is resting, or to keep moving (at a constant velocity) if it is moving.