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half a billionth
The kinetic energy of the ball is at its maximum when it is initially thrown, as it has the highest speed at that point. The gravitational potential energy of the ball is at its maximum when the ball reaches its highest point in the throw, where its height above the ground is greatest.
When the kinetic energy of a pendulum is at half its maximum value, the potential energy it possesses will also be at half its maximum value. This is because the total mechanical energy of the pendulum (the sum of kinetic and potential energy) remains constant throughout its motion.
Every 2 and a half minutes you gain 1 energy until it goes up to your maximum energy. You can also get energy by getting certain magical coins, which also increases your maximum energy.
It will take one year for the tree to reach half its maximum height. Since the tree doubles in height each year, it will be at half its maximum height the year before it reaches its full height.
The population number at which maximum sustained yield is achieved is half of the carrying capacity. Therefore, in this case, the maximum sustained yield would be achieved when the population reaches 30.
no
This is called a half pipe.
The time elapsed before the ball reached its maximum height is half of the total time it takes to go up and come back down. This is because the ball reaches its maximum height at the halfway point of its vertical motion.
i think instead of energy,u meant light.if that's the case,most of it is lost and some is absorbed the suspended particulate matter.
A skateboard that measures 7and half feet across.
This is a trick question with the 'twice half' words. The energy is 1050 J which is PE at the apex, it is travelling vertically, there is no air resistance, and that energy has been totally converted to KE when the projectile hits the ground.