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he described the second law of motion – that force is equal to mass times acceleration or f = ma. Although it looks simple at first glance, the law has several important implications, including how objects move on Earth
其中的词语对应关系如下: "force" 对应 "力",表示物体所受到的作用力 "equals" 对应 "等于",表示两者相等 "mass" 对应 "质量",表示物体的质量 "times" 对应 "乘以",表示两者相乘 "acceleration" 对应 "加速度",表示物体的加速度 牛顿第二定律表明,物体所受到的力等于其质量乘以加速度。这个公式可以用来计算物...
According to Newton’s second law of motion, net force is mass times acceleration: Fnet=ma.Fnet=ma. For uniform circular motion, the acceleration is the centripetal acceleration:.a=ac.a=ac. Thus, the magnitude of centripetal force FcFc is...
What is the basic equation for force? The basic equation of force is F = ma which states that the net force acting on an object is equal to the product of mass and acceleration. In short, it is force equals mass times acceleration.Create...
The meaning of FORCE ON/UPON is to cause (someone or something that is not wanted) to be accepted by (someone). How to use force on/upon in a sentence.
Force equals mass times How can you use Newton's second law to find force? Is acceleration an applied force? A force F acts on a mass of 1.00 kg which results in an acceleration a of the mass. If the same force acts on a mass of 2.00 kg then what will be its resulting...
What is now known as Newton's second law of motion sets down this relationship quantitatively: Force equals mass times acceleration, or F = ma. You see this equation in action every time you step on a scale. Your weight is actually the downward force that results from your body mass ...
What is now known as Newton's second law of motion sets down this relationship quantitatively: Force equals mass times acceleration, or F = ma. You see this equation in action every time you step on a scale. Your weight is actually the downward force that results from your body mass ...
. In this instance, it is assumed that "inertial force" refers to the amount of force it would take to move a certain object or stop it from moving entirely. This can be found using Newton's second law — F = ma — which translates to, "Force equals inertial mass times acceleration....