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The work done by a force is the dot product of the force and the displacement of the point of application of the force i.e.
component of force in the direction of displacement * displacement
or
component of displacement in the direction of force * force
let W be the work done. Then :
W = F.S
W = |F|*|S|*cos(θ) ---- equation 1
where F and S are force and displacement in vector form and |F|, |S| are their magnitudes respectively. cos(θ) is the angle between line of action of force vector and displacement vector.
It is clear from the equation 1 that work will be minimum when cos(θ) is minimum. It is known from trigonometry that minimum value of cos(θ) is -1 which is for angle 1800 or π radians. So work done will be minimum when angle between force and displacement vector is π radians or 1800 i.e. when point of application of force is displaced exactly opposite to the direction of application of force.
I appreciate the last attempt to answer the question, but I think it is wrong. The answer should be 90°, because although cos180° = -1, the negative sign in
- FScos180° only signifies that the work done has taken away energy from the system, or it signifies that the work is done in the opposite direction, implying that work is done. When the angle is 90°, on the other hand, work done = 0, ie, no work is done at all. Thus the answer should be 90°.
(The above answers define minimum work differently.
The first answers is if minimum work is negative work, therefore if you do work in the opposite direction of the displacement, the work you do is negative and is less than 0. Minimum work here is the work that is the lowest number.
The second answer defines minimum work as the magnitudeof the work done being minimized. Since magnitude is always positive, minimum work in this case would always be zero. Which one is correct depends on the situation you are dealing with.)
What else can I help you with?
What is the angle between the direction of motion of an object and the direction of the applied force if the work done on the object is said to be negative?
If the work done on an object is negative, the angle between the direction of motion and the direction of the applied force is greater than 90 degrees. This means the force is acting in the direction opposite to the motion of the object, resulting in a decrease in energy or displacement of the object in the opposite direction of the force.
What angle do two forces acting on an object produce the minimum net force?
At 180 degrees the net force is at a minimum; the two are working against one another.
What is the equation to get work?
In physics, work is defined by the product of force and perpendicular distance which it acts. The unit for work is the Joule(J) Work done = Force * Distance moved (Joules) (Newtons) (meters)
What force allows work to be done?
Any force can produce work if it causes displacement. If displacement is in opposite direction of force, work done will be negative and if displacement is in direction of force work done will be positive. If there is no displacement, work done is zero. Eg: Gravitational force pulls you down towards earth, in pulling you down it does work on you which gets stored in form of potential energy. Energy for A+
How does K be determined?
K, also known as the spring constant, is determined experimentally by measuring the force applied to a spring and the resulting displacement. The formula to calculate K is K = F / x, where F is the force applied and x is the displacement. By plotting the force-displacement data and calculating the slope of the line, the spring constant can be determined.
The application of a force through a distance?
Work = Force * displacement if the displacement and the force are parallel - work is positive if force and displacement are in the same direction, negative if they have opposite direction. At an angle Work = Force * displacement * cos(θ) where θ is the angle between the force and displacement vectors.
At what angle Work is minimum?
Work is minimized when the angle between the force applied and the direction of motion is 90 degrees (or π/2 radians). At this angle, the force does not contribute to the displacement in the direction of the force, resulting in zero work done. In general, as the angle increases from 0 to 90 degrees, the work done decreases, reaching its minimum at 90 degrees.
How is work done by a force measured when force is in direction of displacement?
Work done by a force when the force is in the direction of displacement is calculated as the product of the force and the displacement, multiplied by the cosine of the angle between them. Mathematically, work done (W) = force (F) × displacement (s) × cos(θ), where θ is the angle between the force vector and the displacement vector.
What should be the angle between force and displacement to get the minimum work and maximum work?
To minimize work, the angle between force and displacement should be 90 degrees (perpendicular). This is because work done is calculated as the dot product of force and displacement vectors, and the cosine of 90 degrees is 0, resulting in zero work. To maximize work, the angle should be 0 degrees (parallel), as the cosine of 0 degrees is 1, resulting in maximum work done.
What is the difference between negative work and zero work and positive work done?
If the angle between the displacement and force applied is less than a right angle, then it is Positive Work done. If the angle between the displacement and the force applied is greater than a right angle then it is Negative Work done. If the displacement and force are at right angles, or either is zero, then it is Zero Work done.
What is the force x displacement?
The force multiplied by the displacement is equal to the work done. This relationship is described by the equation: Work = Force x Displacement x cos(θ), where θ is the angle between the force and displacement vectors.
How do you find the angle in the work done?
You measure it. Depending on the information provided, you can also calculate it, for example using trigonometry. ======================== Work done= Force vector . Displacement vector=Force*displacement*cos a, where a is the angle between the force and the displacement. So you have the values of work force and displacement then you can do the cosine inverse of the ratio of work done to the product of the force and displacement. That will give you the angle.
What is formula of a works?
it is the dot product of displacement and force . i.e. Fdcos(A) where F is the magnitude of force , d is the magnitude of displacement and A is the angle between them
Work is the product of and an object's displacement?
Work is the product of force and displacement, where force is the effort applied to move an object and displacement is the distance the object moves in the direction of the force. The formula for work is: Work = Force x Displacement x cos(theta), where theta is the angle between the force and displacement vectors.
What formula can be used to calculate work if the force acts at an angle to the displacement?
Work = (Force) x (Distance the object moves) x (cosine of the angle between force and motion)
How much work is done on a body of mass 1kg whirling on a circular path of radius 5m?
Zero, in this case acting force is perpendicular to the direction of displacement... Reason..... It is because here the angle is 90 degree and when there is an angle then the force is equal to F cos x * d= F *cos 90*0= 0 Therefore work done=0
What is the angle between the direction of motion of an object and the direction of the applied force if the work done on the object is said to be negative?
If the work done on an object is negative, the angle between the direction of motion and the direction of the applied force is greater than 90 degrees. This means the force is acting in the direction opposite to the motion of the object, resulting in a decrease in energy or displacement of the object in the opposite direction of the force.
