there is no effect of mass on time period because mass and time period are inversely proportional
They both have the same effect on the surface area of the pipe, but the radius has more effect on its volume/capacity.
Yes, Doubling Season has an effect on planeswalkers. It causes them to enter the battlefield with double the number of loyalty counters they would normally have.
doubles
Doubling the speed of an object has a greater effect on its kinetic energy than doubling its mass. The kinetic energy of an object is proportional to the square of its speed, but only linearly related to its mass. Therefore, an increase in speed will have a greater impact on the object's kinetic energy.
it will shorten it
The volume increases by 8 times (23). doubling is 2, so its 2 to the power of 3. Leigh
It is define as twice the maximum symetrical short circuit current.
Doubling the velocity would have a greater effect on the kinetic energy of an object. The kinetic energy of an object is directly proportional to the square of its velocity, while it is only linearly proportional to its mass. Therefore, increasing the velocity has a more significant impact on the kinetic energy.
Doubling an object's speed has a greater effect on its kinetic energy than doubling its mass. This is because kinetic energy is proportional to the square of the velocity, so increasing the speed has a more significant impact on the energy compared to increasing the mass.
The vibrating effect in singers' voices, known as vibrato, adds depth, emotion, and richness to their vocal performance. It helps to create a more dynamic and expressive sound that can enhance the overall impact of the music they are performing.
Yes, you can. When you add -ing to the verb to double, it forms the present participle, present tense of the verb doubling.Example: We are doubling the recipe to have enough for the whole class.The present participle of the verb also functions as an adjective, example:(a doubling effect), and a gerund (doubling is the inverse of halving).
Doubling mass affects kinetic energy in that the greater the mass, the greater the kinetic energy. OK, but if you have a 10kg mass traveling at 2m/s and it bumps into and sticks to a 10g mass, the resultant speed would be 1m/s. The momentum stays the same. KE before is 10*2*2/2= 20, while the KE after is 20*1*1/2= 10. So it is not that the above answer is wrong, but rather, you question is not clear.