Yes. It's because you are using your arms as well as your legs when you dance. When walking you're not moving as much
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∙ 11y agoYes, dancing typically uses more energy than walking slowly. Dancing involves more dynamic movements that engage different muscle groups and increase heart rate, leading to higher energy expenditure compared to the lower intensity of slow walking.
A leg is a limb used for walking for a human.
Low kinetic energy refers to an object or system having minimal motion or movement. Objects with low kinetic energy typically have slower speeds or are at rest. This is because kinetic energy is directly proportional to an object's mass and velocity – the lower these values, the lower the kinetic energy.
If a compound has more bonds, it can store more energy within those bonds. This is because the amount of energy stored in a bond is directly related to the strength and number of bonds present in the molecule. So, with more bonds, the compound can potentially store more energy.
Yes, endergonic reactions absorb more energy than they release. These reactions require an input of energy in order to proceed, and the energy absorbed is greater than the energy released during the reaction.
Unmyelinated nerve fibers conduct impulses more slowly than myelinated nerve fibers. Myelinated nerve fibers have a fatty substance called myelin sheath that allows for faster transmission of impulses compared to unmyelinated fibers without this sheath.
Question- the faster you travel, the more slowly time passes, which means that you moved quickly when you are walking but more slowly when you are flying in an airplane. Answer- The faster you travel, the more slowly time passes, which means that time moves**** quickly when you are walking but more slowly when you are flying in an airplane. :)
Yes, It requirs more energy when walking on a slope than a flat surface
i wuold say dancing because u hav 2 put in more energy than bowling.
break dancing lets off more energy but ballet is harder
Rapidly moving comets have more kinetic energy compared to slowly moving ones. Kinetic energy is the energy of motion, and it increases with an object's velocity.
there is not transformation of energy it is kinetic energy
you exert more energy going uphill because your muscles strain a bit more but it really depends on the angle
Ballroom dancing is an aerobic exercise. If you do it long enough you get the exact same benefits as strenuous walking, but it's also more fun.
Actually,their can be more learned behaviors but three of em is walking,dancing,driving xD :).Hope i helped
Yes, participles can have modifiers that describe or add more information about the participle, and they can also have objects that receive the action of the participle. For example, in the sentence "Walking slowly along the path," "slowly" is a modifier of the participle "walking," and "path" is the object of the participle.
Walking on level ground is moving balance weight. This requires far less energy than walking uphill or downhill. Walking uphill burns almost twice as many calories as walking in flat land. Walking downhill burns more than walking on flat land simple because you are transferring weight down and in doing so you move your total weight down on one leg at a time. Walking downhill uses about half the extra energy walking uphill compared to walking on flat land. If your knees will permit you to walk up and downhill, you will not only burn more calories, but the muscles in your legs will strength and you will have far less body fat on your legs. I have a pretty steep hill I walk daily. It is the main factor for me being able to control my weight. Invest thirty days and experiment with this. You will be pleasantly surprised and will be able to control your weight in the future. I wish there was a way for people desiring to lose weight to find out about it. There is more of a chance for a knee injury. Be careful.
Walking down stairs requires more energy because your muscles are actively working to control and stabilize your body as you descend. The muscles need to lengthen to control the gravitational force pulling you down the stairs, resulting in more energy expenditure compared to walking on a flat surface where the muscles are primarily working to propel you forward.