The time period of a vibrating swing will remain constant by addition of more weight because time period depends upon the length of the pivot or string to which the mass (bob) is attached. Period of the swing is independent of the mass of the bob.
The time period of simple pendulum remains costant
the period of vibrating swing neither increase nor decrease by addition of more weight . it remains constant because it does not depends upon weight.
If the temperature increases, the conductivity will increase too which means the dielectric constant is reduced
the weight will decrease
It increases. Heat is the kinetic energy of vibrating atoms/molecules.
When the speed of an object remains the same - it does not increase or decrease - we say it is moving at a constant speed.
the period of vibrating swing neither increase nor decrease by addition of more weight . it remains constant because it does not depends upon weight.
pitch increased
If the temperature increases, the conductivity will increase too which means the dielectric constant is reduced
An arithmetic sequence does not have a constant rate of increase or decrease between successive terms, so it cannot be called anything!The constant increase or decrease is called the common difference.
the weight will decrease
It increases. Heat is the kinetic energy of vibrating atoms/molecules.
When the speed of an object remains the same - it does not increase or decrease - we say it is moving at a constant speed.
The volume decrease.
Energy remains constant.
If they increase or decrease exactly, then the constant of proportionality or coefficient of proportionality. If not exactly, then a correlation coefficient.
With constant mass, a decrease in volume will increase the the density. Conversely, an increase in volume will decrease the density.
No. Power is constant. Transformers neither increase nor decrease power, except for minor losses. They increase or decrease voltage, and they decrease or increase current, but the product of voltage and current, i.e. power, remains the same.