work for it
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 tension in the string of a swinging pendulum does not do any work. The tension force acts perpendicular to the direction of motion, so it does not apply a force in the direction of displacement. This means that no work is done by the tension force on the pendulum.
Tension (often found in a pulley system) is a pulling force found in rope. This will work in 2 directions.
Tension in a string is considered a nonconservative force because it does not depend on the path taken by the string. The work done by tension in moving an object from one point to another is path-independent, meaning it only depends on the initial and final positions of the object. This characteristic distinguishes it from conservative forces, such as gravity, where the work done depends on the path taken.
The work done by the tension force is calculated as the product of the force exerted by the tension and the distance over which it acts. The force exerted by the tension is given by the mass times the acceleration plus the force due to gravity. Work = force * distance = (mass * acceleration + mass * gravity) * distance. Plug in the values to find the work done by the tension force.
The forces acting on a chain in tension are the tension force exerted by the chain itself, and any external forces applied to the chain. These forces work to keep the chain in equilibrium and prevent it from breaking or stretching beyond its limit.
Mass is the amount of matter in an object, force is a push or pull that can change the motion of an object, work is the transfer of energy that results in a change in position or motion, and power is the rate at which work is done. In a catapult, mass affects how much force is needed to launch a projectile, force is applied to tension the catapult arm, work is done as the arm releases and launches the projectile, and power determines how quickly the projectile is launched.
A tension meter works by measuring the force or tension that is applied to a material, such as a wire or cable. It typically consists of a sensor that detects the tension and converts it into an electrical signal that is displayed on a gauge or device. The tension reading provides valuable information for ensuring that the material is within specified limits and operates safely and effectively.
Work is defined as force times displacement in the direction of the force being applied. This means that work is a measure of how much force is used to move an object a certain distance. Mathematically, work is calculated as the product of force and distance: Work = Force x Distance.
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.
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.
You would do twice the work because work is calculated as force times distance. So, if you apply twice the force over the same distance, the work done would be twice as much.
Work = force x distance Work = 10N x 4m= 40 joules