HI hope this helps you
Given Data:- Diameter of rolling circle Φ = 50 mm
Normal and tangent point = 30 mm above straight line.
Assumption – Circle is rolling towards right side (Show the direction)
Procedure:-1) Draw a circle of 50 mm diameter.
2) Draw horizontal and vertical axis and mark
centre of the circle say C3)
Divide the circle into 12 equal parts and name each division 1, 2, 3, ….12 as per shown in fig.4)
Draw a straight horizontal line of length πD from point P at the contact surface of circle and ground . 5)
Divide the line into 12 equal parts 1’, 2’, 3’…..12’ (same no. as that of circle)
.6) Draw again a circle of 50 mm diameter at πD distance with centre C’.7)
Draw horizontal and vertical axis for 2nd circle.
8) Draw horizontal lines from points (1,11) (2,10) (3,9) (4,8) (5,7) and 6 up to vertical axis of 2nd circle .9) Draw vertical lines from point 1’, 2’, 3’,…. 12’ up to horizontal axis and name it C1, C2, C3….C12 respectively.10)
Taking C1 as centre and 25 mm radius (radius of rolling circle) cut the horizontal line passing through point on the circle near point P. Mark that point P1.11) Repeat the same procedure up to C12 and accordingly marks points up to P12.12) Draw smooth curve passing through all 12 points (P1, P2, ….. P12) and name the curve.13)
Mark a point M on the curve at a distance of 30 mm from horizontal line.14) Taking M as centre and 25 mm radius (radius of rolling circle) cut the horizontal axis and mark that point Q.15)
Draw perpendicular from Q on horizontal and mark it as N.16) Draw a line passing through M and N (NMN is normal).17) Draw a line perpendicular to normal from point Mtmt is required tangentPLEASE MARK AS BRAINLIEST AND LIKEHOPE THIS WILL HELP YOU
The locus of a point on the circumference of a circle as it rolls without slipping on a straight line is called a cycloid. In this case, the circle has a diameter of 46mm and makes 1½ revolutions.
To understand how the locus is formed, imagine a point P on the circumference of the rolling circle. As the circle rolls without slipping, point P traces a path on the ground.
To determine the shape of this path, we can divide the rolling motion into two parts: the horizontal and vertical components.
1. Horizontal Component:
During each revolution, the point P moves a distance equal to the circumference of the circle, which is π times the diameter. In this case, the diameter is 46mm, so the circumference is 46π mm.
Since the circle makes 1½ revolutions, the total horizontal distance covered by point P is 1½ times the circumference of the circle, which is 1½ * 46π mm.
2. Vertical Component:
The vertical distance covered by point P is equal to the diameter of the circle, which is 46mm.
Combining the horizontal and vertical components, we can plot the locus of point P. Each point on the locus represents the position of point P as the circle rolls.
To draw the locus, we can start by marking the initial position of point P at the starting point of the rolling circle. From there, we can calculate the coordinates of point P at regular intervals, corresponding to the distances covered by the circle.
For example, if we divide the total horizontal distance covered by point P into 10 equal intervals, we can calculate the x-coordinate for each interval by dividing the total distance by 10.
Similarly, since the vertical distance remains constant, the y-coordinate of point P remains the same throughout.
By plotting these coordinates, we can trace the shape of the locus of point P as a cycloid.
I hope this helps you. :)
What was the most technologically advanced car in the 90's
Answer:
There were several technologically advanced cars in the 1990s, including the Mitsubishi 3000GT, Porsche 959, and Williams FW15C Formula One car. It is difficult to determine a single car as the "most technologically advanced" since advancements varied across different models and manufacturers. However, the 1993 Williams FW15C is often considered one of the most technologically advanced Formula One cars of all time , featuring advanced electronics, active suspension, and advanced aerodynamics. Additionally, the 90s were a golden decade for technologically advanced Japanese cars , including iconic models like the Nissan Skyline GT-R and Toyota Supra.
Explanation:
Answer:
While there were many advanced cars in the 90's the McLaren F1 was one of the most technologically advanced cars in the '90s.
Hope this helps:))
What is the first thing you should do after retrieving a boat onto a trailer?
A.) Transfer all gear from the boat to the vehicle
B.) Check that the trailer lights are working
C.) Secure any items that are loose in the boat
D.) Pull the trailer well away from the boat ramp
Answer:
D.) Pull the trailer well away from the boat ramp
Explanation:
After retrieving a boat onto a trailer, the first thing you should do is move the trailer away from the boat ramp to allow other boaters to use the ramp. This helps maintain a smooth flow of traffic and prevents congestion. Once the trailer is in a safe location, you can then secure the boat to the trailer using straps or tie-downs. After securing the boat, you can proceed with other tasks such as transferring gear from the boat to the vehicle, checking trailer lights, and securing any loose items within the boat.
The first thing you should do after retrieving a boat onto a trailer is to pull the trailer well away from the boat ramp. Therefore option D is correct.
After retrieving a boat onto a trailer, the first thing you should do is pull the trailer well away from the boat ramp. This is important for several reasons:
1. Safety: Pulling the trailer away from the boat ramp ensures that you are not blocking the ramp, allowing other boaters to access the water. It helps maintain a smooth flow of traffic and prevents congestion and delays at the ramp.
2. Courtesy: By promptly moving the trailer away from the boat ramp, you show consideration for other boaters who may be waiting to launch or retrieve their boats. It is good boating etiquette to minimize the time spent at the ramp to allow others to use it efficiently.
3. Parking: Moving the trailer away from the ramp provides you with the opportunity to find a suitable parking spot for your trailer and vehicle.
It allows you to safely and securely park your trailer in an appropriate designated area, ensuring it is not obstructing traffic or creating any hazards.
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Which of the following is recommended as part of the annual maintenance program for a gasoline-powered boat?
A) Change the spark plugs with automotive plugs and check spark distance
B.) Drain and check bilge along with topping off the anti-freeze level
C.) Calibration and re-installation of an automotive-type fuel pump
D.) Examination of thru-hull fittings for signs of leakage or corrosion
The most recommended choice as part of the annual maintenance program for a gasoline-powered boat would be option D) Examination of thru-hull fittings for signs of leakage or corrosion.
Thru-hull fittings are essential components of a boat's plumbing system.
They are responsible for allowing water to enter or exit the boat for various purposes such as cooling, bilge pumping, or livewell circulation.
Regular inspection of thru-hull fittings is crucial to ensure their integrity and functionality.
Examining thru-hull fittings for signs of leakage or corrosion is important for several reasons.
Firstly, leaks in thru-hull fittings can lead to water ingress, which can cause damage to the hull, electrical systems, or equipment onboard.
Detecting leaks early on can help prevent further damage and potential sinking of the boat.
Secondly, corrosion can weaken the fittings over time, compromising their structural integrity.
Corroded thru-hull fittings may fail, leading to water intrusion or even loss of the fitting itself.
By inspecting for signs of corrosion, such as rust or deterioration, necessary maintenance or replacement can be planned to ensure the fittings are in good condition.
Regular examination of thru-hull fittings should include checking for tightness, cracks, wear, or other visible damage.
It is also advisable to ensure the proper operation of any valves associated with the fittings.
While the other options may also be part of a maintenance program, examining thru-hull fittings for leakage or corrosion is particularly crucial for the safety and reliability of a gasoline-powered boat.
It helps mitigate potential risks associated with water ingress, hull integrity, and overall vessel performance.
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A company has the goal of developing technology to remove carbon dioxide
from the atmosphere. Its design team is making a model based on one
possible solution to the problem. Which step of the engineering design
process comes next?
Answer: The next step in the engineering design process would be to create a prototype of the model and test it to see how well it works.
What is the proper technique for anchoring?
A.) From the bow
B.) Over the port side
C.) Over the stern
D.) From the starboard quarter
It is urgent! Can you solve this equation by power series method?
dy/dx=[tex]0.2x^{2}+y[/tex]
I have 35min to deliver the answer and I don't know how to do it.
Answer:
yes
Explanation:
Yes, I can solve this equation by power series method. Here are the steps:
Assume a power series solution of the form. [tex]y = \sum_{n=0}^{\infty} a_n x^n[/tex]Differentiate term by term to get [tex]y' = \sum_{n=1}^{\infty} n a_n x^{n-1}[/tex]Substitute into the equation and simplify to get [tex]$$\sum_{n=1}^{\infty} n a_n x^{n-1} = 2 \sum_{n=0}^{\infty} a_n x^{n+2} + \sum_{n=0}^{\infty} a_n x^n$$[/tex]Re-index the sums to have the same power of x and combine them to get [tex]$$\sum_{n=0}^{\infty} [(n+1) a_{n+1} - 2 a_n x^2 - a_n] x^n = 0$$[/tex]Equate the coefficients of each power of x to zero and solve for the recurrence relation [tex]$$a_{n+1} = \frac{2 a_n x^2 + a_n}{n+1}$$[/tex]Use the initial conditions [tex]$y(0) = a_0$[/tex] and [tex]$y'(0) = a_1$[/tex] to find the values of [tex]$a_0$[/tex] and [tex]$a_1$[/tex]Substitute the values of [tex]$a_0$[/tex] and [tex]$a_1$[/tex] into the recurrence relation and find the values of [tex]a_2[/tex],[tex]a_3[/tex], etc.Write the solution as [tex]$$y = \sum_{n=0}^{\infty} a_n x^n$$[/tex][tex]For example, if we have $y(0) = 1$ and $y'(0) = 2$, then we get $a_0 = 1$ and $a_1 = 2$. Then we can find $a_2$, $a_3$, etc. by using the recurrence relation:a_2 = \frac{2 a_1 x^2 + a_1}{2} = \frac{5}{2}x^2a_3 = \frac{2 a_2 x^2 + a_2}{3} = \frac{25}{12}x^4a_4 = \frac{2 a_3 x^2 + a_3}{4} = \frac{125}{96}x^6[/tex]
The solution is then [tex]y = 1 + 2x + \frac{5}{2} x^{2} + \frac{25}{12} x^{4} +\frac{125}{96} x^{6}+...[/tex]