Force equals mass times acceleration.
Suppose I propose that
force equals mass times velocity.
Force equals mass times acceleration, and objects with a smaller mass have a greater acceleration (and vice versa).
Force equals mass times acceleration.
«
Force equals mass times acceleration,» Steele says.
Now remember that
force equals mass times acceleration and there is a whole lot of mass to go along with the acceleration, so the overall force isn't going to smash open the planet, but it's enough to smash through a crustacean's armor to inject some poison.
All high school physics students can tell you that
force equals mass times acceleration, and a 6 - 2, 210 - pound safety who runs a 4.5 40 is going to deliver a significantly more dangerous hit than a 5 - 10, 160 - pound safety who runs a 5.2.
Not exact matches
Rodriguez's acceleration times Bonds's
mass equaled the
force of one of the most exciting groundouts to first base you've ever seen, most likely foreshadowing more classic confrontations in this Series.
Maybe it's because Lynch was born with the strength of two men, or maybe he just has more
mass than a normal human being, but either one sure explains how two objects hurtling toward each other at approximately
equal force can have such a one - sided result.
A planet's angular momentum
equals the
mass of an object multiplied by its distance from the Sun, and corresponds with the
force that the planet exerts on the overall system's spin.
To work out whether the
force of gravity on the car was less than or
equal to the static friction
force holding it on the wall, they needed to include a range of factors including the
mass of the vehicle, the car's speed and its centripetal
force.
One can produce an
equal and opposite magnetic
force to counterbalance the pull of gravity, but gravity itself is interpreted as a curvature of space and time by
mass.
If you've paid attention to physics class, you'd probably remember that
force is
equal to
mass multiplied by acceleration.
It's the max -
force generation point we mentioned earlier - that's the place on an exercise's stroke at which the target muscle can generate the most
force - and more
force equals more
mass.
In fact, the
force that we exert on a barbell is
equal to the weight due to gravity plus a
force required to overcome the inertia associated with its
mass.
In one example, teachers were asked to conduct a series of small experiments on gravity, including a replication of Galileo's famous experiment dropping two objects of different
masses to prove that gravity exerts an
equal force on all objects.
But color and paint matter give flesh with
equal force to figures and voids, shadow and
mass.
Tomorrow we'll pay attention to that very interesting new study about clouds — a bombshell we think — but today we have another one that should serve as a foundation to scientific thinking about climate
forcing, namely the suggestion that «not all climate forcers are
equal» —
equal in the way they act as a cooling or warming
force, considering important factors like time scale and the geographical characteristics of a planet with a 3D atmosphere and a northern hemisphere with land
masses and a southern hemisphere with just mainly a lot of oceans.
In isothermal equilibrium, the system is in perfect
force balance, there is no net dynamical transport of
mass up or down, no net change whatsoever of gravitational potential energy — but heat conduction still functions to maintain
equal temperature and restore equilibrium after a perturbation.
A planet's angular momentum
equals the
mass of an object multiplied by its distance from the sun, and corresponds with the
force that the planet exerts on the overall system's spin.
(A Lagrange point, in case you were wondering, is «a position where the gravitational pull of two large
masses precisely
equals the centripetal
force required for a small object to move with them.»