user18181818
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wait i don't thnk that is rightView attachment 40313
sorry for the bad picture
I'm only year 10 now, so I'm not quite sure about that.
why do we find unit vectors? can u show me ur working pls sorry i'm dumb7. Find the unit vector of each direction vector, and then multiply them both by their respective magnitudes, then add them and you’ve found the total force (and obv you know how to find magnitude from there)
Other q: just use vector projection, and then for the perpendicular one find a line perpendicular to L (i.e. (4,-3)) and find the projection to that - I think if I remember this q correctly the solution uses Pythagoras but imo this is easier
don’t have time to do full working but basically if we just multiply them by their magnitude then the force vector will have a greater magnitude than intended the one we were told to give it, which obviously isn’t right.why do we find unit vectors? can u show me ur working pls sorry i'm dumb
yeah. There is a mistake in the calculations because I rushed. Actually F1 is equal to 2 forces and one is (0,4) with a mag of 40 N. The other is (3,0) with a mag of 30N.wait i don't thnk that is right
The direction vectors given are not unit vectors as they each have a magnitude that isn't 1. The vector 3i + 4j has magnitude 5, for example. If you multiplied the given direction vector by 50, you would get a vector for the force that has magnitude 250 N.don’t have time to do full working but basically if we just multiply them by their magnitude then the force vector will have a greater magnitude than intended the one we were told to give it, which obviously isn’t right.
yeah this is what I was trying to say except I was too lazyThe direction vectors given are not unit vectors as they each have a magnitude that isn't 1. The vector 3i + 4j has magnitude 5, for example. If you multiplied the given direction vector by 50, you would get a vector for the force that has magnitude 250 N.
So, to get a magnitude = 50 N vector in that direction, change the direction vector into its unit vector (3i + 4j) / 5, and then multiply by 50 to get the required vector 30i + 40j with the required magnitude.
Alternatively, since the magnitude is already 5, multiply by 10 get a vector of magnitude 50 N.
Similarly, the other vector has magnitude 13 and you want a vector in that direction with a magnitude of 65 N, so the required vector is
(65 / 13) * (12i - 5j) = 60i - 25j.
The sum of the vectors is 90i + 15j and this is the net force applied.
a) the component of the force F in the direction of the line l is the projection of F onto the vector (3,4).
Total force is F1 + F2How do you do this?
View attachment 40310
Ah, Wednesday... hopefully a day for a good sleep in...yeah this is what I was trying to say except I was too lazy
i have no clue how you have the time to do this 3 days before english though