no. Inertia is directly proportional to mass. So twice the mass, twice the inertia, etc. So, the larger the mass, the greater the inertia.
Constructive interference occurs when amplitudes of two waves combine to produce a wave with a larger amplitude.If a wave with a smaller amplitude is produced, destructive interference has occurred.
True, the most common method is to use a balance
Such an object makes a larger dent in the fabric of space-time than an object with little mass. (It has a greater gravitational attraction than less massive objects)A greater force is required to accelerate such an object than a less massive object
mass wasting changes the surface of the earth quickly
There are 2 basic cell types: prokaryotic and eukaryotic. Prokaryotic cells arebacteria.Eukaryotic cells generally are larger and more complex than prokaryotic cells.
nope
true Jupiter has a larger mass than earthType your answer here...
True. Jupiter has a much larger mass than Earth, approximately 318 times greater.
yes, it can be smaller, equal or larger to the true value of the population varience.
Sure, if either of the following conditions is true: -- The smaller mass started dropping before the larger mass did. As long as (MsmallVsmall) is equal or greater than (MbigVbig), the smaller mass has equal or more momentum than the larger one has. But of course, the momentum of the larger mass catches up as its speed grows. -- The smaller mass and the larger mass were dropped at exactly the same time, but on different planets. Then, if the smaller one was dropped in a place where gravitation is greater, and the greater mass was dropped in a place where gravitation is less, it's quite possible for the smaller mass to have more momentum than the larger mass has, at least for a while. If the acceleration of gravity on the larger planet is at least (larger mass x acceleration of gravity on the smaller planet/smaller mass) or more, then the smaller mass has more momentum than the larger mass has forever, or as long as they're both freely falling.
Yes ,absoutly.
This is not necessarily true. most of the time stars with a larger diameter have more mass but some stars with a smaller diameter are more dense and have a greater mass. Find a main sequence star chart and you can compare the data.
true
Evolution produces both larger and smaller forms, depending on circumstances. This is true for any lifeform, and it is true for mammals.
True. But please note that there are other differences between the proton and the electron as well - for example, the proton has a larger mass, and the proton is made up of smaller particles, while the electron - as far as we know - is not.
Gravity attracts all mass, period. More massive objects have higher gravity, but even low masses will attract.
China's total area is __________________ the conterminous United States.