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A force applied on to an object will accelerate that object in the direction of the force as a vector. It can be seen as applying Newton's second law of motion, which states that acceleration is directly proportional to force and inversely proportional to mass, or F=ma. Depending on the mass of the object in question, and wether it is greater than the resultant, or net force, the movement in the northern direction will change. However, as an answer to the question stated: Yes, an object will move in the northern direction if a resultant force is exerted on an object the stated direction.
Some physical values - not all of them - have a magnitude and a direction. Such physical values are known as vectors. As an example, when applying a force, a direction is often relevant. Also, when specifying a speed, a direction may be relevant (you end up in quite different places if you go north vs. east, for example). In physics, a speed, combined with a direction, is called a velocity.
By convention, yes, but the acceleration is negative
A moving body can be accelerated by applying a force. This force will act to increase velocity, decrease velocity or change the direction the body is moving. All three of these are acceleration.
work-applying a force to an object and the object moving in the direction the force is applied so example: when you apply an upward force onto a box and move the box upward, you have done work. however, once you start walking with that box, the box is moving forward but you are applying force upward so you are not doing the same work. when the force and motion is not in the same direction, there is no work. when you're walking, your motion is going foward and the box you're holding, which is the force, is up so there is no work.So there fore the work you think your applying is not actually happening.
A force applied on to an object will accelerate that object in the direction of the force as a vector. It can be seen as applying Newton's second law of motion, which states that acceleration is directly proportional to force and inversely proportional to mass, or F=ma. Depending on the mass of the object in question, and wether it is greater than the resultant, or net force, the movement in the northern direction will change. However, as an answer to the question stated: Yes, an object will move in the northern direction if a resultant force is exerted on an object the stated direction.
In order to determine what salary you can expect, it would have to be based on what position you are applying for. The different salaries based on the different fields range from 97,000 - 175,000.
In order to determine what salary you can expect, it would have to be based on what position you are applying for. The different salaries based on the different fields range from 97,000 - 175,000.
Applying more force in the direction of travel will increase the acceleration and therefore speed. If more force is applyed opposite to the direction of travel, acceleration will decrease.
By applying a force to it in the direction opposite to its motion.
applying a force to move an object in the same direction
Know what the job requirements are before applying for a position. This will help you determine whether your skills, qualifications, experience, and education are a good fit for the position.
It is extremely unlikely that you will find 2 men of 30 kg!
No. Only if you are applying the same amount of force then there is no motion. If you are applying more force (the object is moving) then there is work being done.
You could look at the length of the walk and use integrals to determine that.
Some physical values - not all of them - have a magnitude and a direction. Such physical values are known as vectors. As an example, when applying a force, a direction is often relevant. Also, when specifying a speed, a direction may be relevant (you end up in quite different places if you go north vs. east, for example). In physics, a speed, combined with a direction, is called a velocity.
The root meaning of bending is to flex or curve something in a different direction, typically away from its original position or shape. It involves applying force to cause a change in the angle or shape of an object.