It becomes double as K=Q/t×L/A(T2-T1) so if the thickness (L) of an object is doubled the thermal conductivity will be doubled as thermal conductivity is directly proportional to the thickness/L of the object
K=L
K=2L,K=2 two times
A thermal conductor allows heat to readily flow through itself. An example of a material with a low thermal conductivity would be air, and an example of a material with a high thermal conductivity would be steel.
Momentum = mass x velocity. So if the velocity is doubled, momentum will be doubled as they are directly proportional to each other.
If the potential difference between the ends of any conductor is doubled, then the current through the conductor is also doubled.
If you doubled the force on a moving object you would double its acceleration.
It should fall to a quarter.
A thermal conductor allows heat to readily flow through itself. An example of a material with a low thermal conductivity would be air, and an example of a material with a high thermal conductivity would be steel.
Momentum = mass x velocity. So if the velocity is doubled, momentum will be doubled as they are directly proportional to each other.
If both dimensions are doubled then the area is quadrupled. This is true of any geometric shape.
If the potential difference between the ends of any conductor is doubled, then the current through the conductor is also doubled.
increases by 6 dB
The acceleration will be doubled accordingly. From 10m/s2 to 20.
Thermal energy
It should fall to a quarter.
It doubles.
the surface area quadruples.
it'll get louder
As an example: 4 x 5 = 20, when doubled only once, it is 8 x 10 = 80