Yes. Force= mass times acceleration if mass is large the force is large.
YES
is it true
higher
higher
higher
If you don't change the voltage between the ends of the circuit,then higher resistance in the circuit means lower current (amps).
The larger the value of μ (aka Mu, the coefficient of friction, the greater the frictional force on an object. For instance, steel on nonlubricated steel has a μ of 0.58 while steel on lubricated steel has a μ of 0.06.
higher
higher
higher
Conductors have low resistance. Recall Ohm's law. The higher the conductor resistance, the greater the voltage drop along the conductor, and the less voltage that is available for the load. The conductor resistance is a resistance in series with the load. Also, higher conductor resistance results in more electrical power being converted into heat, warming up the conductors. This is calculated with the formula P=I2R. The greater the resistance, the greater the power wasted heating the conductors.
The higher the resistance , the higher the voltage
The higher the number, the greater impact, so I would say yes this is true. The higher numbers would cause more movement.
Diffusion is the net movement of molecules from an area where they are at a higher concentration to areas where they are at a lower concentration. This is due to the random movement of the molecules.
Yes. Something with a higher viscosity will flow more slowly, such as a thick oil, compared to water.
No, the resistance of an insulator is very high.
it is similar to that of heating a metal heating a metal leads to increase in resistance thus both laser shot or heating are form of heat transfer that leads the atoms to higher energy states causing random movement of electrons vigorously which increases resistance
If you don't change the voltage between the ends of the circuit,then higher resistance in the circuit means lower current (amps).
The larger the value of μ (aka Mu, the coefficient of friction, the greater the frictional force on an object. For instance, steel on nonlubricated steel has a μ of 0.58 while steel on lubricated steel has a μ of 0.06.