Want this question answered?
force applied to an object as a pulling motion towards a fixed or an object in equal motion with the object.
when an equal and opposite force is applied to it
You're fishing for the "buoyant force", but the wording of the question isquite unscientific.The force on the floating object is not equal to water. It's equal to theweight of the amount of water that is displaced.
an amount equal to the volume of the object.
The scientific definition of work is the transfer of energy from one object to another, especially in order to make the second object move in a certain direction. Work is equal to the amount of force multiplied by the distance over which it is applied. If a force of 10 newtons, for example, is applied over a distance of 3 meters, the work is equal to 30 newtons per meter, or 30 joules. The unit for measuring work is the same as that for energy in any system of units, since work is simply a transfer of energy.
A dram is used to measure the amount the mass and volume of a certain object. A teaspoon is equal to a liquid dram, otherwise it is equal to 1/8th of an ounce.
force applied to an object as a pulling motion towards a fixed or an object in equal motion with the object.
If you have a jug of a certain amount of water I.e 100 ml, you gently place the irregular sized object into the water and all of the overflow of water represents the volume of the object
impulse
when an equal and opposite force is applied to it
An equal and opposite force is also applied to the object, so that the vector sum of all the forces on it is zero.
Electrically neutral
Yes, if the forces are equal and acting in opposite directions, the net force will equal zero and that object can be said to be at rest.
You're fishing for the "buoyant force", but the wording of the question isquite unscientific.The force on the floating object is not equal to water. It's equal to theweight of the amount of water that is displaced.
The scientific definition of work is the transfer of energy from one object to another, especially in order to make the second object move in a certain direction. Work is equal to the amount of force multiplied by the distance over which it is applied. If a force of 10 newtons, for example, is applied over a distance of 3 meters, the work is equal to 30 newtons per meter, or 30 joules. The unit for measuring work is the same as that for energy in any system of units, since work is simply a transfer of energy.
For an object in motion, a force applied in the direction of the movement of the object would propel it further along that direction. The force should be equal or more than the momentum of the object. If a force in applied against the moving object in a direction opposite to the movement of the object, the velocity of the moving object is hampered. How much this decrease in velocity would occur would depend on the amount of the opposing force. If a sufficiently large force in an opposing direction is applied, it can even stop the object. If the force is not along or opposite the movement of the object, the force can change the direction of the object. If the force that was causing the movement of the object is removed, the object slows down, until it finally stops. For an object at rest, a sufficient amount of force can set the object in motion.
an amount equal to the volume of the object.