**Work** Force Distance **Calculator** Force: Distance: **Angle** of the Force: **Work**: Note: If the force and the object movement are in the same direction, the **angle** value is 0. **Work** force distance formula is: W = Fscosθ. Where: W: **Work** **done** by the force, in J F: Force, in N s: Distance, in m θ: **Angle** between the force and displacement vectors, in degree.

**Work done** by frictional force. Example: A 5.0 kg box rests on a horizontal surface. The coefficient of. kinetic friction between the box and the surface is 0.5. A horizontal force pulls the box at a constant velocity for 10 cm. What will be the **work done** by the applied horizontal force and the frictional force ? (take g=10 m/s 2). The **work done** on an object is w= (f)orce. (d)istance = fd. A crane does 5000J of **work** to lift a box a vertical distance of 16.0 m **Calculate** the **mass** of the box? Force on the box =. A Force of 5N is acting on a body and body moves by 10m in below figure.What is the workdone by the Force Solution Now we can see from the figure force is acting at **angle** 60° the direction of displacement.So, F=5 cos 60= 2.5 N Now d=10 m Now as per force formula W = F d =2.5 ×10= 25 J W = F d = 2.5 × 10 = 25 J How the **Work Calculator** works 1..

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**Calculate**

**Work Done by Jet per Second**?

**Work Done by Jet per Second calculator**uses

**Work**

**Done**= ((Specific Weight * Cross-Sectional Area *(Absolute Velocity of the Issuing Jet-Jet Velocity)^2 * Jet Velocity)/ Specific Gravity of Fluid)*(

**Angle**D *(180/ pi)) to

**calculate**the

**Work**

**Done**, The

**Work Done by Jet per Second**is the product of the component of the force in the direction of the .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="fcf07680-209f-412a-b16b-81fb9b53bfa7" data-result="rendered">

**work**

**done**

**calculator**finds the

**work**

**done**using the given values.

**Work**

**done**is given by. W = P ⋅ t W =

**Work**

**Done**P = Power t = Time. Step 2: Click the blue arrow to submit. Choose "Find the

**Work**" from the topic selector and click to see the result in our Physics

**Calculator**! Examples: Find the

**Work**. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b0be0c29-16e4-4e97-a5c0-b7d0e91c37f0" data-result="rendered">

**work**

**done**by the student to elevate his body to this height. Assume that his speed is constant. See Answer 8.

**Calculate**the

**work**

**done**by a 2.0-N force (directed at a 30°

**angle**to the vertical) to move a 500 gram box a horizontal distance of 400 cm across a rough floor at a constant speed of 0.5 m/s.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="841df746-76ff-40d4-a9e7-ab3417951c7d" data-result="rendered">

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**work done calculator with angle and mass**. About us; FAQ; Service; Contact. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="c9fcc261-dde9-4af6-96a4-871ce9c843a7" data-result="rendered">

**3D Motion Work Calculator**is provided in support of our Physics Tutorial:

**Work**and Energy. Types of Energy though it can be used as a stand alone

**calculator**to help check homework, and assignment or Physics

**work**computations for accuracy. We provide details of the

**Work**Formula used and some details to refresh your memory and support .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="4d215b96-b52e-49f9-9335-980f09fbeb75" data-result="rendered">

**Calculate**-

**Work**-Step-3-Version-3.jpg\/v4-460px .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="795da395-b604-4321-9a03-a2e708cba49c" data-result="rendered">

**Work**

**done**& force applied to distance moved; User Guide. Use this

**calculator**to determine the force applied to an object in newton, pound-force, kilogram-force or kilonewton units, to use a specified amount of energy or do

**work**to move an object over a defined distance. Formula. The formula used by this

**calculator**to determine the force exerted .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="3cb7dd99-f626-402c-a06b-af9231f2f3ff" data-result="rendered">

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**calculate**the

**work**are along the lines w = f * d f = w/d d = w/f When velocities

**and mass**of the object are given, w = (m/2) * (v 1 ² - v 0 ²) m = (2w)/ (v 1 ² - v 0 ²) v 0 = √ (v 1 ² - (2 * w/m)) v 1 = √ (v 0 ² + (2 * w/m)) Where, f is the force d is the displacement v 0 is the initial velocity v 1 is the final velocity. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="5b3b1b0a-1ccc-4b67-a0ca-cdbbdf4f4447" data-result="rendered">

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**calculate**the

**work**

**done**when we lift a weight or

**mass**vertically some distance, we’ll use the integration formula for

**work**, where W is the

**work**

**done**, F(x) is the force equation, and [a,b] is the starting and ending height of the weight or

**mass**. Oftentimes problems like these will have us use a ro. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="4b15af10-4eb1-4162-ae9b-eb3d3824beac" data-result="rendered">

**Mass**m = 10 kg,

**angle**= The

**work done by gravity formula**is given by, W = mgh cos θ W = 15 × 9.8 × 10× =15 × 9.8 × 10×0.9063 = 1332 J Therefore, the

**work**

**done**by gravity is 1332 J. Example 2 A boy drags a 10 kg box across the friction-less surface. He applies a force of 30 N at an

**angle**of to the horizontal for 6m.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="80945d4b-b8f8-4325-960e-45fca311cdc9" data-result="rendered">

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**Calculate**

**Work Done by Jet per Second**?

**Work Done by Jet per Second calculator**uses

**Work**

**Done**= ((Specific Weight * Cross-Sectional Area *(Absolute Velocity of the Issuing Jet-Jet Velocity)^2 * Jet Velocity)/ Specific Gravity of Fluid)*(

**Angle**D *(180/ pi)) to

**calculate**the

**Work**

**Done**, The

**Work Done by Jet per Second**is the product of the component of the force in the direction of the .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="f382f1cb-123c-4436-b2cb-f34bf4bd680f" data-result="rendered">

**Calculate**

**Work Done by Jet per Second**?

**Work Done by Jet per Second calculator**uses

**Work**

**Done**= ((Specific Weight * Cross-Sectional Area *(Absolute Velocity of the Issuing Jet-Jet Velocity)^2 * Jet Velocity)/ Specific Gravity of Fluid)*(

**Angle**D *(180/ pi)) to

**calculate**the

**Work**

**Done**, The

**Work Done by Jet per Second**is the product of the component of the force in the direction of the .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="a6d1e317-2a68-412a-ac27-144ef69937ca" data-result="rendered">

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**work**

**done**by a force when given the force and displacement vectors for an object.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="c8cc1969-d820-49c0-bd97-4a16409af920" data-result="rendered">

**work done calculator with angle and mass**The SI unit of

**work**is joule (J). The amount of

**work**

**done**is directly proportional to the magnitude of force applied, as well as the displacement of the object. Specifically, the term "

**work**" is used when a physical force causes an object to move. Using a

**calculator**, we find that the cosine of 60.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="c41171c6-8800-408c-977a-63fbe4751645" data-result="rendered">

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**Work**

**done**& force applied to distance moved; User Guide. Use this

**calculator**to determine the force applied to an object in newton, pound-force, kilogram-force or kilonewton units, to use a specified amount of energy or do

**work**to move an object over a defined distance. Formula. The formula used by this

**calculator**to determine the force exerted .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="433508ca-f506-4049-8107-ad1ca0adc804" data-result="rendered">

**calculate**the

**work**

**done**when we lift a weight or

**mass**vertically some distance, we’ll use the integration formula for

**work**, where W is the

**work**

**done**, F(x) is the force equation, and [a,b] is the starting and ending height of the weight or

**mass**. Oftentimes problems like these will have us use a ro. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="ed36168c-2d75-44bb-af14-7e035d599b8a" data-result="rendered">

**Work calculator**

**Work Calculator**is a great tool to use to solve problem online. This tool will help you whenever you want and this will be good if you will use it. Input Data F o r c e = 45 N D i s p l a c e m e n t = 6 m Solution W o r k = 270 J Formula W o r k = F o r c e ∗ D i s p l a c e m e n t About This Bot How to use

**work calculator**?. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="1bb3543d-1fb5-4afe-8ef5-45ff8933e40c" data-result="rendered">

**calculator**to determine the force exerted from the

**work**

**done**and distance moved is : F = W / d Symbols F = Force applied W =

**Work**

**done**or energy transferred d = Distance moved

**Work**(W) This is the total energy transferred or

**work**

**done**in moving the object. Distance (d) This is the distance the object has moved. Force (F). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="5748a623-6b96-497b-9496-3f36b505bb8e" data-result="rendered">

**Work**of Frictional Force Formula and Calculation W f = μ × m × g × cos θ × ∆x W f = × × × × W f = J (Joule) Kinematics Physics Tutorials associated with the

**Work**of Frictional Force

**Calculator**4.3 - Types of Forces II. Resistive Forces (Frictional Force. Drag). Terminal Velocity. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="87ceaf71-6960-4ef6-b52c-421637c6f58e" data-result="rendered">

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**Mass**m = 10 kg,

**angle**= The

**work**

**done**by gravity formula is given by, W = mgh cos Î¸. We use cookies to make wikiHow great.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="2bcc452a-5a51-4c9b-8b1c-ae36b5034865" data-result="rendered">

**calculate**

**Work**

**done**and Power consumed:

**Work**

**done**(W) = Force acting on particle (F) * Displacement of Particle (D) Power Consumed (P) = Force acting on particle (F) * Displacement of Particle (D) / Time consumed (T) Below is the implementation of the above approach: C++14. Java.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="2de7993f-14a4-447f-bc26-98da36daf182" data-result="rendered">

**Calculating work done by a**force. This is the currently selected item.

**Work**as area under curve. Practice: Calculating

**work**from force vs. position graphs.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="48228821-4764-4930-8058-fa20661df210" data-result="rendered">

**calculate**the

**work**

**done**when we lift a weight or

**mass**vertically some distance, we’ll use the integration formula for

**work**, where W is the

**work**

**done**, F(x) is the force equation, and [a,b] is the starting and ending height of the weight or

**mass**. Oftentimes problems like these will have us use a ro. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="538f82fa-8241-4608-ab57-698fc33e49fd" data-result="rendered">

**Work**can be calculated through the following formula. W = F*D Where W is the

**work**F is the total force D is the total displacement Where force is applied to an object directly at 0 degrees. When a force is applied at an

**angle**the formula will be the following:

**Work**= Force * Distance * cos (theta). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="2f47a18d-77ad-4564-8be4-df4934a90f26" data-result="rendered">

**calculate**

**Work**

**done**and Power consumed:

**Work**

**done**(W) = Force acting on particle (F) * Displacement of Particle (D) Power Consumed (P) = Force acting on particle (F) * Displacement of Particle (D) / Time consumed (T) Below is the implementation of the above approach: C++14. Java.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b7a17191-3740-44fa-86f8-f35a04f41162" data-result="rendered">

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**Calculate**

**Work Done by Jet per Second**?

**Work Done by Jet per Second calculator**uses

**Work**

**Done**= ((Specific Weight * Cross-Sectional Area *(Absolute Velocity of the Issuing Jet-Jet Velocity)^2 * Jet Velocity)/ Specific Gravity of Fluid)*(

**Angle**D *(180/ pi)) to

**calculate**the

**Work**

**Done**, The

**Work Done by Jet per Second**is the product of the component of the force in the direction of the .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="9af62133-bf4e-4c89-b253-65f17439fe5b" data-result="rendered">

**calculate**the

**work**are along the lines w = f * d f = w/d d = w/f When velocities

**and mass**of the object are given, w = (m/2) * (v 1 ² - v 0 ²) m = (2w)/ (v 1 ² - v 0 ²) v 0 = √ (v 1 ² - (2 * w/m)) v 1 = √ (v 0 ² + (2 * w/m)) Where, f is the force d is the displacement v 0 is the initial velocity v 1 is the final velocity. To

**calculate**the

**work done**on an object when a force moves it, use the equation:

**work done**= force × distance This is when:

**work done**is measured in joules (J) force is measured in. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="7ce0547e-f110-4d49-9bed-3ec844462c17" data-result="rendered">

**work**

**done**by the student to elevate his body to this height. Assume that his speed is constant. See Answer 8.

**Calculate**the

**work**

**done**by a 2.0-N force (directed at a 30°

**angle**to the vertical) to move a 500 gram box a horizontal distance of 400 cm across a rough floor at a constant speed of 0.5 m/s.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="ce5aaf03-920a-4594-b83b-ac3d11a8aab1" data-result="rendered">

**Work**

**Calculator**2 D Vector

**Calculator**3 D

**Work**

**Calculator**Absolute Magnitude Of Sun

**Calculator**Ac Dc Voltage Drop Circuit

**Calculator**Acceptance

**Angle**In Optical Fibre

**Calculator**Air Duct Sizing

**Calculator**Alfven Velocity

**Calculator**. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="0917bc3b-4aa5-44a6-a3c5-033fd1a2be7a" data-result="rendered">

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**Work**can be calculated through the following formula. W = F*D Where W is the

**work**F is the total force D is the total displacement Where force is applied to an object directly at 0 degrees. When a force is applied at an

**angle**the formula will be the following:

**Work**= Force * Distance * cos (theta). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="1b277482-7276-4b33-a359-28ef0a28113a" data-result="rendered">

**work done calculator with angle and mass**. About us; FAQ; Service; Contact. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="df0ca963-8aa0-4303-ad74-b2df27598cff" data-result="rendered">

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We concluded that the **work** **and** the energy are directly proportional to each other. **Work** **done** by an object can be scientifically expressed as: W = 1 2 mvf2 - 1 2 mu2 Where, m = the **mass** of the object measured using kilograms. W = the **work** **done** by an object measured using Joules. vf = the final velocity of an object measured using m/s.

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W = **work done** by gravity. m = **mass**. g = gravity. h = height. Solved Questions for **Work Done** by Gravity . 1) **Calculate** the force of gravitation between the earth and the Sun where the.

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Other formula is **Work** w = (mass/2) * ( (m/2) * (finalvelocity² - initialvelocity²). 4. How to calculate power of a device on a **calculator**? The steps to get the power using a **calculator** are provided-below. Enter the required inputs such as **work** **and** time. Press the calculate button. Chek the power at the output section. A slug is the amount of **mass** that will accelerate at 1 ft/s 2 when one pound force (lbf) is exerted on it. A slug has a **mass** of 32.174049 pounds **mass** (or 14.593903 kilograms). The slug. The main equations are: These formulae are produced from accelerated motion equations assuming there is no acceleration along with the x-axis and only gravity acceleration "g" along. **Calculate** the **work done** by an 85.0-kg man who pushes a crate 4.00 m up along a ramp that makes an **angle** of 20.0º with the horizontal. (See Figure 7.34.) He exerts a force of 500 N on the.

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Mar 07, 2022 · **Work** can be** calculated** through the following formula. W = F*D. Where W is the work; F is the total** force;** D is the total displacement ; Where** force** is applied to an object directly at 0 degrees. When a** force** is applied at an** angle** the formula will be the following:** Work** =** Force** * Distance * cos (theta) Where theta is the** angle** of** force** applied relative to the displacement of the object. The SI unit of work is the joule (J).. . Related Tools. Force exerted & distance moved to **work** **done**; **Work** **done** & distance moved to applied force; User Guide. Use this **calculator** to determine the distance an object is moved in micron, thousandth of an inch, millimetre, centimetre, inch, foot, yard, metre, kilometre, mile or nautical mile units, by using the amount of energy transferred or **work** **done** **and** the force applied to the object.

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This **calculator** will **calculate**: Frictional force between a moving object and the ground **Work done** by this frictional force against motion Note: In horizontal motion, θ = 00, so cos θ = cos.

Bernoulli Equation **Calculator** (**Mass** Flow Rate) ... (Volume Flow Rate) Brewster's **Angle Calculator**; Buoyancy **Calculator** (Force) Buoyancy **Calculator** (**Mass**) Cylindrical Pipe **Mass**.

To calculate the **work** **done** when we lift a weight or **mass** vertically some distance, we'll use the integration formula for **work**, where W is the **work** **done**, F(x) is the force equation, and [a,b] is the starting and ending height of the weight or **mass**. ... Oftentimes problems like these will have us use a ro. To calculate the **work** **done** when we.

homecoming at creekside reviews. Calculate the **work** **done** by the applied force .Question: Consider the simulator with **Mass** = 3 kg, **angle** of incline = 40, moving up the plane with constant speed case, assuming no friction involved Calculate the minimum force needed to move the object to the top of the hill and compare to the value given by the simulator..

This force, **mass**, and acceleration **calculator** is based on one of the most fundamental formulas in physics, namely: F = m a where F = Force m = **Mass** a = Acceleration This formula allows you to **calculate** the force acting upon an object if you know the **mass** of the object and its rate of acceleration..

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**Work** physics **calculator** solving total **work** given **mass** and initial final velocity. AJ Design ☰ Math Geometry Physics Force Fluid ... **mass** (m) = 0 = 0. kilogram . velocity (v final) = 0 = 0..

How to **Calculate** **Work Done by Jet per Second**? **Work Done by Jet per Second calculator** uses **Work** **Done** = ((Specific Weight * Cross-Sectional Area *(Absolute Velocity of the Issuing Jet-Jet Velocity)^2 * Jet Velocity)/ Specific Gravity of Fluid)*(**Angle** D *(180/ pi)) to **calculate** the **Work** **Done**, The **Work Done by Jet per Second** is the product of the component of the force in the direction of the ....

License: Creative Commons\/a> \/p> \/p>\/div>"}, {"smallUrl":"https:\/\/www.wikihow.com\/images\/thumb\/7\/77\/**Calculate**-**Work**-Step-3-Version-3.jpg\/v4-460px ....

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License: Creative Commons\/a> \n\/p> \n\/p>\/div>"}, {"smallUrl":"https:\/\/www.wikihow.com\/images\/thumb\/7\/77\/Calculate-**Work**-Step-3-Version-3.jpg\/v4-460px.

**Work** Solution STEP 0: Pre-Calculation Summary Formula Used **Work** = Force*Displacement*cos(Angle A) W = F*d*cos(∠A) This formula uses 1 Functions, 4 Variables Functions Used cos - Trigonometric cosine function, cos (**Angle**) Variables Used **Work** - (Measured in Joule) - **Work** is **done** when a force that is applied to an object moves that object.

The following Physics Calculators by iCalculator are provided in support of our online Physics Tutorials. 1 D **Work** **Calculator** 2 D Vector **Calculator** 3 D **Work** **Calculator** Absolute Magnitude Of Sun **Calculator** Ac Dc Voltage Drop Circuit **Calculator** Acceptance **Angle** In Optical Fibre **Calculator** Air Duct Sizing **Calculator** Alfven Velocity **Calculator**.

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**Work**can be calculated through the following formula. W = F*D Where W is the

**work**F is the total force D is the total displacement Where force is applied to an object directly at 0 degrees. When a force is applied at an

**angle**the formula will be the following:

**Work**= Force * Distance * cos (theta). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="7d572c79-5070-46a2-b4c7-5886e0b613f9" data-result="rendered">

**calculate**the

**work**

**done**when we lift a weight or

**mass**vertically some distance, we’ll use the integration formula for

**work**, where W is the

**work**

**done**, F(x) is the force equation, and [a,b] is the starting and ending height of the weight or

**mass**. Oftentimes problems like these will have us use a ro. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="5f6281ea-cd4f-433a-84a7-b6a2ace998e1" data-result="rendered">

**work**

**done**by the student to elevate his body to this height. Assume that his speed is constant. See Answer 8.

**Calculate**the

**work**

**done**by a 2.0-N force (directed at a 30°

**angle**to the vertical) to move a 500 gram box a horizontal distance of 400 cm across a rough floor at a constant speed of 0.5 m/s.. " data-widget-price="{"amountWas":"2499.99","currency":"USD","amount":"1796"}" data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="9359c038-eca0-4ae9-9248-c4476bcf383c" data-result="rendered">

**work**is the area under the force/distance curve. If force is constant with distance, then the force/distance curve is actually a strait line, so the

**work**is W=FD Also, remember that F=ma Suggested for: How to

**calculate**

**the work from force (acceleration and mass**) How to

**calculate**jump height from the force and a person's weight Last Post. " data-widget-price="{"amountWas":"949.99","amount":"649.99","currency":"USD"}" data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b7de3258-cb26-462f-b9e0-d611bb6ca5d1" data-result="rendered">

**work**

**done**;

**Work**

**done**& distance moved to applied force; User Guide. Use this

**calculator**to determine the distance an object is moved in micron, thousandth of an inch, millimetre, centimetre, inch, foot, yard, metre, kilometre, mile or nautical mile units, by using the amount of energy transferred or

**work**

**done**and the force applied to the object.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="3dbe7ec9-2e82-47b7-a0c2-da68d4642911" data-result="rendered">