A Very Nice Geometry Problem | You should be able to solve this | 2 Methods

cos (B) = 4/6 = 6/AB -> AB=9 -> X^2 = 9^2 - 6^2 = 45 -> X = 3*sqrt (5). Another way: AB = 4+a = 9 in previous step. Now X^2 = a * (4+a) = (9-4) * 9 = 5*9 = 45 -> X = 3*sqrt (5). A 3rd way: cos (B) = 2/3 --> sin (B) = sqrt (5)/3 = X/AB where AB=9 determined in previous methods --> X = 9*sqrt (5)/3 = 3*sqrt (5).

I started like Method 1, but once I had the 2√5 length, I used the tan() in B.=> tan(DBC) = 2√5 / 4 = √5/2 = tan(ABC) = x / 6. Hence 2.x = 6.√5, so x = 3√5

Use the tangent secant theorem
x is the tangent
BD is the secant
So AD=x^2/4
AB= 4+x^2/4
AB^2= 16+2x^2+x^4/16 (1)
ABC is a right triangle
So AB^2=BC^2+AC^2
AB^2 = 36+x^2 (2)
Let x^2= u
Compare (1) and (2)
16+2u+u/16=36+u
256+32u+u=16u+576
32u+u-16u=576-256
15u=320
3u=64
u=64/3
x=8/sqrt 3

In 1st method, you need not solve for DC. It is simpler to solve for AB. Using same triangle similarity, BD/BC = BC/AD. From this you get BD = 9. Then you can use Pythagoras to get AC squared = 81 - 36 = 45.

Let CD ( construction )
Obviously CD⊥AB.
In right triangle ABC => BC²=AB·BD => 6²=AB·4 => AB=9
AD=AB-BD=9-4=5
Also in the same triangle : AC²=AB·AD =>x²=9·5 => x=3√5

9:11 The theorem is the *Power of a point* relative to a circle

O the center of the circle, and t = angleCBA,
In triangle OBD: OD^2 = BO^2 + BD^2 -2.BO.BD.cos(t)
So, 9 = 9 + 16 - 2.3.4.cos(t), and cos(t) = 2/3
Then 1 + (tan(t))^2 = 1/(cos(t))^2 = 9/4,
then (tan(t))^2 = 5/5 and tan(t) = sqrt(5)/2
In triangle CBA: X = CA = BC.tan(t) = 6.(sqrt(5)/2)
Finally: X = 3.sqrt(5).

Cos(dbc) = cos(abc) = BD/BC = BC/BA
So BA=BC²/BD=6²/4=9
Then
AB²=BC²+AC²
9²=6²+x²
x²=81-36=45
x=v(45)=3v(5)

Thanks for the beautiful ideas!!

Wow ... Good video ❤

Llamamos E a la proyección ortogonal de D sobre BC → 6²-4²=DC²→ DC=2√5 → BC*DE=BD*DC→ DE=4√5/3 → BD²-DE²=BE²→ BE=8/3 → DE/BE=AC/BC→AC=X=3√5 =6,7082....
Gracias y un saludo cordial.

Parabéns 💐👏🏻 são excelentes seus vídeos!

Let O be the center of the semicircle. Draw radius OD. OD = OB = BC/2 = 6/2 = 3. As OB = OD, ∆BOD is an isosceles triangle and ∠DBO = ∠ODB = θ.
Triangle ∆BOD:
cos(θ) = (OB²+DB²-OD²)/(2(OB)DB)
cos(θ) = (3²+4²-3²)/(2(3)4)
cos(θ) = (9+16-9)/24
cos(θ) = = 16/24 = 2/3
sin(θ) = √(1-cos²(θ))
sin(θ) = √(1-(2/3)²)
sin(θ) = √(1-4/9)
sin(θ) = √(5/9) = √5/3
tan(θ) = sin(θ)/cos(θ)
tan(θ) = (√5/3)/(2/3) = √5/2
CA/BC = √5/2
√5BC = 2CA
6√5 = 2x
x = 6√5/2 = 3√5 units

Thales tells DC = sqrt(6^2 - 4^2)=2sqrt5.
Congruency tells that AC = 6/4*2sqrt5.
So AC = 3sqrt(5)

∆ ABC → BC = 6; AB = AD + BD = y + 4; CD = z; AC = x; ABC = δ
sin⁡(BCA) = sin⁡(CDB) = 1 → z = 2√5 → tan⁡(δ) = z/4 = √5/2 = x/6 → x = 3√5 → y = 5

Based on the starting diagram and information, it cannot be deduced that AC is tangent to the circle at point C. That assumption was not given until after the solution began.

DC=√20...4:√20=√20:AD..AD=5..x^2=(4+5)^2-6^2=45

Нарисовано коряво! Но DC^2=36-16=20, DC=2\/5, DC/x=4/6, 2\/5/х=2/3, 2х=6\/5, х=3\/5, найдём гипотенузу АВ,
AB^2=[^2+BC^2=45+36=81, AB=9. А нарисовано так, что АС=ВС?

X=3×(5^(1/2)).

🎉🎉🎉🎉🎉🎉🎉

I got this one!

It was wrong solution.
Hiw can say 90 degree of anggle BCD?

Based on one of the liked comments from Math Booster, there might actually be THREE methods. Just like the last video. I shall have to practice all three methods then!

(4)^2H/A/BDASino°=16H/A/DBASino° (6)^2 A/H/BCoso°= 36A/H/BCCoso° {16H/A/BDASino°+36A/H/BCCoso°}= 52HA/AH/BDASino°BCCoso° {180°/52HA/AH/BDASino°BCCoso°} =3 .24 HA/AH/BDASino°BCCoso° 3 .4^6 3.2^23^2: 1.1^1 3^2 3^2: (HA/AHSino°BDABCCoso° ➖ 3HA/AH/BDASino°BCCoso°+2)

❤❤❤❤❤❤❤🎉🎉😊😊😊❤❤❤❤🎉🎉🎉🎉