That isn't always true. An engine with a larger displacement has an advantage but there are other factors that can increase power in a smaller engine that can out perform a larger engine.
Depends on the application. If you mean power, the higher the caliber, the more powerful it is. for example, a .22 caliber rifle is much less powerful than a .50 caliber rifle.
Typically they are more powerful than laptops at a lower cost.
Because at higher speeds you have more velocity than at lower speeds transferring more energy to make a bigger crashing causing more damage.
In general, most solids are more soluble at higher temperatures than at lower temperatures. However, there are exceptions such as cerium sulfate, which follows the opposite trend and is more soluble at lower temperatures than at higher temperatures.
No, molecules at higher temperatures move more quickly than those at lower temperatures. Higher temperatures provide molecules with more kinetic energy, causing them to move faster.
Yes, a molecule with a higher bond order is generally more stable than a molecule with a lower bond order.
The power given to ministers is higher than the civil officers.
Collisions between solvent molecules and solute are more frequent at higher than lower temperatures.
No, generally light with a higher wavelength diffracts less than light with a lower wavelength. This is because diffraction is more prominent for light with shorter wavelengths.
More gravitational potential energy.
One statement you could write is that "Earthquakes of higher magnitudes are much rarer than those of lower magnitudes". The magnitude of earthquakes is a logarithmic scale, so a magnitude of 8 is TEN TIMES more powerful than a magnitude 7. This is why earthquakes of higher magnitudes are so much rarer than those of lower magnitudes.
The higher you go the colder it is.