Yes, the gravitational potential energy is increased. The potential energy in joules is equal to mgh (mass * gravity * height), so increasing the height increases this energy.
to have sex
Kinetic energy because kinetic energy moves and potential energy stays in place
Yes. energy is increasing inside the balloon causing it to rise in the air. Therefore, kinetic and potential energy is constantly increasing as the balloon floats higher.
The position of an object affects its gravitational potential energy (or GPE) because GPE is calculated by multiplying mass by the value for gravity (on Earth it's 9.81) and the objects height. The higher up an object is the more potential energy it will have because it has farther to fall.
increasing energy consumption
It stores energy until a cell needs it. The ATP is an example of chemical potential energy because it stores energy. This energy is stored until cells are in need.
potential energy is stored energy so like, pulling a bow and arrow, pulling the bow back is a form of potential enegry because it's stroing energy This would be an example of elastic potential energy. Other types include gravitational potential energy, electrical potential energy and chemical potential energy.
Increasing the speed will increase the KINETIC energy, not the potential energy. Of course, the potential energy may eventually be converted into kinetic energy, for example if the object moves upwards.
Yes; for example, a car accelerating up a hill has an increasing speed and therefore Ek, yet is gaining gravitational potential.
It has potential to do work. Looking at it another way, it requires energy to stretch the rubber band; this energy can be recovered - for example, by pulling something - when the rubber band gets back to its normal position.
Kinetic energy because kinetic energy moves and potential energy stays in place
It doesn't. Increasing speed affects the KINETIC energy.
Newton's Gravity is an example of potential energy, E= -mGM/r and Planck's Energy is an example of potential energy E = hf = hc/r.
it would be the energy that is slowly increasing
The potential (kinetic) energy increases E = (m*v2)/2
The potential (kinetic) energy increases E = (m*v2)/2
secwet
Temperature is directly proportional to kinetic energy (potential energy).eg. increase the temperature, you increase the kinetic energy of the molecules, hence you're increasing the potential energy of them.