Force is only acting on x axis so y component is actually 0
If the force is lined up with the x-axis, then its y-component is zero.
Zero
0
0 Newtonwton
0
0
K=Constant of proportionalityF=Force measured in N∆L= Total lengthK=F/∆L
You use the information you're given, along with the rules, equations and formulas you know that relate the given information to the unknown angles, to find the angles.
. . . using a metre stick, measuring tape, or a measuring wheel . . . or one of the preceding along with a laser pointer, a protractor, and the tangent button on your calculator.
Use the information you're given and didn't mention in the question, along with all the formulas and equations you know that talk about the relationship among parts of triangles, to calculate the unknown numbers from the known numbers.
In mathematics, a PDE is a Partial Differential Equation. To partially differentiate an equation, read below: Suppose you have a function f(x,y) and suppose you want to partially differentiate it w.r.t. x then you consider y as a constant and find d/dx(f(x,y)). Eg. - Let f(x,y)=xy+x+y then on partially differentiating f(x,y) w.r.t. x - d/dx(f(x,y)) = d/dx(xy) + d/dx(x) + d/dx(y) = y(d/dx(x)) + 1 + 0 (as y is constant) = y +1 Some application(s) of partial differential equations that I know - 1. Find the centre of a conic: Suppose you have a curve as a function of x and y, say f(x,y). Then to find its centre - -> Partially differentiate f(x,y) w.r.t. x. Let the equation obtained be e1. -> Partially differentiate f(x,y) w.r.t. y. Let the equation obtained be e2. Solve e1 and e2 to get (x,y) which is the centre of the curve. 2. To find the (conservative) force acting on an object if its Potential energy is given as a function of distance: -> Let the potential energy function be U(x,y). -> To find the force acting on object in x-direction, find minus(partial derivative of U(x,y) w.r.t. x). -> Same method to find force acting on the object in y-direction. -> Only works for conservative force. For more information, please see the related link.
Find an expression for the magnitude of the horizontal force in the figure for which does not slip either up or down along the wedge. All surfaces are frictionless.
To find the resultant force you need to find both the x and y component of the resultant force. Once you have that, you can use the Pythagorean theorem to find the resultant force.
Actually you answer itself is wrong. You can only find the magnitude of force, not the magnitude in force. You can find the magnitude of force by s = (1/2)*a*t^2
Its easy....To balance force you need to apply an equivalent force in the opposite direction....Example:If a force of 20N acts on a body along the North, you should apply 20N along the south......simple.......
Work force plus effort force
One does not find online sales on force automation. The question should be "What is sales force automation?" Force automation is not a real thing, but sales force automation is.
subtract the magnitudes
He would probably say something along the lines of "I find your lack of faith disturbing" and use The Force to choke whoever said it.
The quadratic equation is used to find the intercepts of a function (F(x)=x^(2*n), n being an even number) along its primary axis (typically the x axis). Many equations follow this form. The information given by the quadratic equation depends on what your function is pertaining to. If say you have a velocity vs time graph, when the function crosses the xaxis your particle has changed from a positive velocity to a negative velocity. This information can be useful to determine the accompanying behavior of your position. The quadratic equation is simply a tool to find intercepts of a function.
force= pressure*area
If you are talking about problems involving Newton's second law of motion, F = ma, you would need to define two of the three variables of force, mass, and acceleration in order to find the third variable. If you have force and mass, you can find acceleration. If you have force and acceleration, you can find mass. If you have mass and acceleration you can find force.
I'm not sure how to tell you how to find the output force of an object, any suggestions?