Want this question answered?
yes it would.
yes, it would because of the disperse in weight on the object will allow less force to be applied.
'Ductile". (Normally applied to substances, not objects.)
Inertia guarantees that an object at rest will remain at rest and an object in motion will remain in that same motion, so long as there is no external force acting on that object. Alternately, there could be force acting on it as long as that force adds up to zero.
An object stays in the air when the density of the object is at equilibrium with that of the air. A good example of this would be a light-weight, hollow container filled with 50% helium, and 50% oxygen. This would stay perfectly stationary, so long as there was enough helium to counteract the container's weight, in mid-air. However, if the helium level is greater than the air within the object, it will continue to float upward until the density of the object is equal to that of the atmosphere around it.
[object Object]
long A
yes it would.
any transition within a sub,context will be effective in the placement of an object, so long as that object is indicative of its own transition
The same object that is 11.5 cm long
You can use a ruler to determine how long a object is
Bourne believed that an object would float or sink at will as long as he could manipulate the effect's of buoyancy which control and object to sink or float.
The length of the shadow depends not only on the height of the object, but also on how high the Sun is in the sky.
Not enough information. The length of the shadow depends on the height of the object AND on the how high the Sun is in the sky.
A 304800 meter object is 1000000 feet long!
Light from an object a trillion miles away (10 to the power of 12) will take around 0.17 years to get to the observer or 62 days.
[object Object]