centripetal force Results Mass(kg) | Radius(m) | Velocity(m/s) | CentripetalForce[Calculation](kg. m/s2) | CentripetalForce[Measure](kg. m/s2) | StandardDerivation(%) | 0.02406 | 0.0900 | 2.023 | 1.094 | 0.7349 | 32.8 | 0.02406 | 0.0900 | 2.584 | 1.785 | 1.446 | 19.0 | 0.02406 | 0.0900 | 3.153 | 2.658 | 2.351 | 11.4 | 0.02406 | 0.0900 | 3.702 | 3.662 | 3.374 | 7.86 | 0.02406 | 0.0900 | 4.238 | 4.801 | 4.525 | 5.75 | Force versus Mass Mass(kg) | Radius(m) | Velocity(m/s) | CentripetalForce[Calculation](kg
Premium Mass Measurement Force
The first chapter in Retellings by M.B. Clarke and A.G. Clarke discussed many versions of stories. I read different styles of Cinderella. By reading different examples of story is beneficial because the audience can see how the tone varies from story to story. Whenever a story is retold‚ there are always connections from both stories even if they seem completely different at first. The biography of Margaret Atwood along with a few poems of hers‚ helped me discover her flow of writing. The poem that
Premium
. A toy puck and a hockey stick cost $1.10 in total. The stick costs $1 more than the puck. How much does the puck cost? a) 10 cents b) 5 cents c) 15 cents d) Cannot be determined 2. In a lake‚ there is a patch of lily pads. Every day‚ the patch doubles in size. If it takes 48 days for the patch to cover the entire lake‚ how long would it take for the patch to cover half of it? a) 47 days b) 24 days c) 13 days d) Cannot be determined 3. Bob is in a bar‚ looking at Susan
Premium Mass Prime number Mathematics
Types of Forces Used in Basketball Forces are found everywhere‚ but of course‚ you can`t see them. They act on you for example if you are waking there are many forces that act`s on you. If they are not involved you can`t wake. Let`s talk about the forces that are involved in basketball. Basketball is a very enthusiastic sport and you must try it‚ you are not going to regrets. Basketball has original thirteen rules‚ but I am just going to mention 10 of them. 1- The ball can be thrown in any direction
Premium Force Classical mechanics Mass
Appendix - Porter five forces model: Competitive situation of printing industry Threat of new entrants |Factors (affecting the threat of new entrants) |Analysis |Threat Rating of New | | | |Entrants | |Economies of scale: |The printing product is usually required large
Premium Costs Variable cost Total cost
this purpose‚ Porter identified a range of interrelated generic activities common to a wide range of firms. The resulting model is known as the value chain. According to Porter (1985)‚ " Competitive Advantage arises out of the way firms organise and arrange discrete activities". Through using the Value Chain‚ the activities performed by a firm competing in a particular industry can be grouped into categories as shown in the model below: Upstream Activities Downstream Activities Porter distinguishes
Premium Value chain Strategic management Management
FORCE AND MOTION Scalars vs. Vectors Scalars | Vectors | A scalar quantity has only magnitude. | A vector quantity has both magnitude and direction. | Scalars can be added‚ subtracted‚ multiplied and divided just as ordinary numbers‚ i.e.‚ scalars are subjected to simple arithmetic operations. | Vectors cannot be added‚ subtracted and multiplied following simple arithmetic laws. Arithmetic division of vectors is not possible at all. | Example: mass‚ volume‚ time‚ distance‚ speed‚ work‚ temperature
Premium Velocity Physical quantities Classical mechanics
A ball is thrown upward at time t=0 from the ground with an initial velocity of 18 m/s (~ 40 mph). Assume that g = 10 m/s2. Time to reach apex 18/10 = 1.8 Time x 2 = 3.6 Great height reached by ball – (Velocity)(time)+(-5)(time^2) 18x1.8+(-5)(1.8^2)=16.2 A model rocket accelerates upward from the ground with a constant acceleration‚ reaching a height of 63 m in 8 s. * Speed at height 63 - 2x63/8 = answer What is the acceleration= answer/8 * If you were to drop a rock from a tall building
Premium Force Weight Acceleration
The electric field depicts the surrounding force of an electrically charged particle exerted on other electrically charged objects. The concept of an electric field was introduced by Michael Faraday. The electric field is a vector field with SI units of newtons per coulomb (N C−1) or‚ equivalently‚ volts per metre (V m−1). The SI base units of the electric field are kg⋅m⋅s−3⋅A−1. The strength or magnitude of the field at a given point is defined as the force that would be exerted on a positive test
Premium Electric charge Magnetic field Electromagnetism
Matt Ennis 10/3/10 The Use of Force A physician is summoned to make a housecall on a family with who he has had no prior contact. He quickly sizes up the situation: the household is poor but clean; the patient is a female child whose parents are nervously concerned‚ dependent on‚ yet skeptical of the doctor. The child ’s beauty and piercing stare make an immediate impression on him. Concerned that diphtheria may be the cause of illness‚ he uses his customary professional manner
Premium Doctor Physician Doctor Who