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Jinzo's effect says no traps can be activated, so under normal circumstances, you cannot use Mirror Force at all when Jinzo is face-up on the field.
because you asked this and it hated you so much that it will never work
The actual "q, w, e,r,t,y" letters, in my opinion, are not used that much besides my having to type them just then! I use the home row a whole lot more. If you want a fraction for how much qwerty is used, I would say maybe 1/10, if that, and only one or two letters then. Do you want the force exerted by fingers on the qwerty letters measured? I would say that the home row (a,s,d,f,g,h,j,k,l,;) are used for 2/3 of the work done by typists, with the space bar coming right (space) after (space) it!
the company disided it was to much work
No, the force in tension of a string is not conservative. The only non-conservative force acting is the tension force, but it acts perpendicular to the path of the object at every instant, and so it does zero work.
Tension (often found in a pulley system) is a pulling force found in rope. This will work in 2 directions.
A Tension Meter is designed to measure , translate and display differences in fabric depression. It provides a carefully calibrated downward force through it's plunger mechanism.
Tension headaches can be caused by many things. Dehydration, stress, lack of sleep are some of the more common causes. It is best to see a doctor to diagnose your headaches, especially if they are prolonging.
it's attraction force that attract the surface of fluid toward under
Zero. W = F* d cos (Theta) W = Tension * displacement * cos (90) The force is perpendicular to the objects motion (or displacement of the object) W = T * d * 0 W= 0
A force perpendicular to an object's motion. Examples include: -- the gravitational force on an object in a circular orbit -- the gravitational force on a car that's moving on a level road -- the tension in the string holding a yo-yo as it spins in a circle around your head.
Magnetohydrodynamics is the study of the behaviour of ionised plasmas. It generally works by considering the conservation of several quantities, such as energy and momentum, and the balance of forces, such as the magnetic tension force and the pressure gradient force.
Work is force times distance - assuming the force is applied in the same direction as the movement.
Work = force x distance Work = 10N x 4m= 40 joules
Work = force x distance. Answer is in joules.
First you have to find the force F=(mass/weight of object)*(9.8) Once you find force Work=(Force)*(Distance) Your answer will be in joules