Message from @isoboto
Discord ID: 803314659254861864
Idk Martin Luther king rosa parks
Steve jobs for the computer
person that left a lasting legacy, Almon Brown Strowger
invented the Strowger Switch which created phone numbers
Tolkien
GEOTUS
steve jobs didnt inventthe computer tho
oh my bad, Idk who did
Charles Babbage
Say Trump and you get an early summer vacation
thats smart
<:thinking:726878987837636698>
Hey I need help isolating t from the d =v0(t) 1/2(at^2)
Part of me thinks it’s the quadratic formula I should use but I want to make sure there’s other ways to isolate it before resorting to it
as in at^2 v0t -2d
no. isolate for t is via quadratic formula is the quickest way
so 1/2at^2 + v0t - d = 0 than use the quadratic formula?
I’m not sure if I’m doing it right but
the given weight is 11.8N btw
Do I need to the parallel gravity and add it to counter the applied force?
it's on a ramp, so you'd need to breakdown the gravity force into x- and y-component
ok so right now I'm adding the Fg // + Ff + Fapp
my answer is 44.768m up. can ya'll see if I missed something since it's pretty steep
Fg-x?
i'm doing my hw rn so i might not be able to help you 🤣 see if omni calculator has a preset
Oh idk what to call the applied force for the hypotenuse since the box is gonna move at an angle
and since everything else is at an angle i thought it would make sense
Idk if I was suppose to make all the components horizontal or something
split it into components
for find fg
then for x-component you have cos[angle] while y-component you have sin[angle]
Anyone mind helping me on my calc quiz
@Iamspeedhulkdab post the question
@Iamspeedhulkdab check ur dm
I know fg which is mg. I split it into fg parallel and fg perpendicular. Is there something else I should do?
no, i think that's it
ok so the normal force should be the opposite of fg perpendicular and than I can find the friction force at 56 degrees.
I then added up the applied, parallel, and friction force to get a net force of 14
all 3 of them are at a 56 degree angle so