Lamborghini Huracan EVO Spyder

Lamborghini Huracan EVO Spyder

Lamborghini Huracan Evo Spyder in India on Thursday at 4.1 Crore (Ex-showroom). The supercar was unveiled alongside the inauguration of the Lamborghini in Mumbai showroom at Prabhadevi.

The open-top car joined its coupe counterpart Huracan EVO launched earlier this year as the second model in the V10 Huracan EVO line up.

 The spyder adopts the next-generation vehicle dynamic control and aerodynamics developed for the coupe, with the 5.2 liter Lamborghini V10 engine uprated for higher power output and incorporating titanium intake valves.  

The Huracan EVO spyder produces 640 hp at 8000 rpm with 600 nm of torque at 6500 rpm, and is paired with a 7-speed dual-clutch automatic gearbox, with a dry weight of 1542 kg the car reaches a weight to power ratio of 2.41kg/h.

The car accelerates from 0-100 km/h in 3.1 seconds and 0-200km/h in 9.3 seconds. Braking from 100km/h to 0 is achieved in just 32.2 m, with a top speed of 325km/h.

Engine & Transmission
Engine	5204cc, 10 Cylinders In V Shape, 4 Valves/Cylinder, DOHC
Engine Type	V10 90° IDS, 40 valves
Fuel Type	Petrol
Max Power (bhp@rpm)	631 bhp @ 8250 rpm
Max Torque (Nm@rpm)	600 Nm @ 6500 rpm
Drivetrain	AWD
Transmission	Automatic - 7 Gears, Paddle Shift, Sport Mode

Dimensions & Weight
Length	4459 mm
Width	1924 mm
Height	1165 mm
Wheelbase	2620 mm

Capacity
Doors	2 Doors
Seating Capacity	2 Person
No of Seating Rows	1 Rows

Suspensions, Brakes & Steering
Suspension Front	Aluminum double-wishbone suspension
Front Brake Type	Disc
Rear Brake Type	Disc
Steering Type	Power-assisted (Hydraulic)
Wheels	Alloy Wheels
Spare Wheel	Alloy
Front Tyres	245 / 30 R20
Rear Tyres	305 / 30 R20

Colour of Lamborghini Huracan Spyder EVO

Read More

Elaeocarpus Oblongus

Elaeocarpus Oblongus

 The Elaeocarpus Oblongus tree found at Kaas plateau of India

Elaeocarpus is a genus of tropical and subtropical trees distributed from Madagascar in the west through India, Southeast Asia, Malaysia, Japan, and Australia to New Zealand, Fiji and Hawaii in the east with its estimated about 350 species. In India, most of the species grow in the Himalayan region. Elaeocarpus species possess many biologically active molecules they are Indolizilidine alkaloids, Triterpenes, Tannin such as Geraniin and 3, 4, 5-tri methoxy geraniin, Grandisines, Rudrakine, and Flavonoids; Quercitin.

Most of the Elaeocarpus species have exhibited Anti-inflammatory, Antimicrobial, Anti-anxiety and Analgesic, Antidepressant and Antihypertensive activities. The ancient literature shows in Elaeocarpus was used as Ayurvedic medicine, but biological studies revealed that a number of other therapeutic uses of this genus make known its species as the chief source of multi-use medicinal agent proved in experimental animals.  Elaeocarpus oblongus is found wild in Western Ghats ascending to 6,000 ft. The tribe of Nilgiris district todas, kurumbas, kothas, irulas, kattanaikes are broadly using these fruits for therapeutic purpose. During our field trip, we had seen that the fruits were a very cheapest resource for the treatment of rheumatism and body pain. It has been reported further various ancient tribes were using this fruit for the treatment of leprosy, pneumonia, rheumatism, ulcers, piles, and dropsy.

 Literature shows very few biological studies had been conducted on leaf stem and stem bark. But there was no report on the pharmacognostic evaluation of much-used part of the tree the fruit. Since the fruits are edible and important seasonal food commodity (May to August) and it is extensively sold in the local market of Nilgiris district, Tamilnadu state, India. The current study has decided to investigate the anatomical, physicochemical characters and the presence of sugars in edible fruits of Elaeocarpus oblongus. This is the first time the fruit was assessed for anatomical and physicochemical characters.

Elaeocarpus oblongus is familiar with Elaeocarpaceae. Elaeocarpaceae is a tree and found throughout Western Ghats of India. The present study indented to establish the pharmacognostic and physicochemical quality control parameters of E.oblongus fruits to avoid confusion in taxonomic identification. Physicochemical evaluation of fruit was carried out according to the guidelines of WHO and Indian Ayurvedic Pharmacopoeia. The elemental analysis was done by using Perkin Elmer 5000 an atomic absorption spectrophotometer. Nonglandular unicellular trichomes found to be a distinguished character of powder analysis. It was quantified to be 700µm long and 400µm thick at the base. Lerachysclereids were found plenty in powder. The rosettes type of calcium oxalate crystals were 15 µm in diameter. Cells of the endosperm showing darkly stained globular bodies and the cotyledon are 170µm thick. Physio-chemical parameters such as total ash and acid-insoluble ash, extractive values, foreign organic matter and loss on drying were estimated. Qualitative analysis showed the presence of Fructose, Glucose, Flavanoids and Tannins and Sterols and Phenolic compounds and fatty acids in the fruit. The number of elements in the fruit pulp powder was estimated by elemental analysis.

The result shows Mn-53.5 and Zn – 46.2 were the major contents, While Pd- 14.3, Cu- 7.5 and Cr- 4.9 were minor contents. This study provided the pharmacognostic profile used to differentiate the other similar looking fruit from other ones of this genus.

Read More

Shooting Star Flower

Shooting Star Flower

The common shooting star plant is native to North American valleys and mountains. The plant may be found growing wild in low elevation areas in spring or in summer where consistent moisture is available. Growing shooting star wildflowers in the native home garden is easy and produces masses of the attractive blooms having yellow or lavender collars.

Common shooting star blooms in mid-spring from May to June. The plant forms rosettes of long narrow leaves and singular slender stems. The flowers hang in umbels from the stems and are white to bright pink. The petals grow backward and up, away from the reproductive organs of the plant. These dangle down from the center and maybe a pale yellow, pink or even soft purple color. Flower color combinations are blue-purple, yellow-orange or pink-red. The common shooting star is a member of the Primrose family and is a natural part of the prairie garden. These wildflowers are found in wetlands to semi-arid prairies. They are also found growing among woodland plants, especially in oak forests.

The common shooting star plant produces small hard, green capsules after flowering. These fruits contain the seeds of the wildflower, which require pollination by bees to set. The mature fruit will remain on the plant until fall. The fruit pods are oval and dry out to split open with a ridge of teeth-like serrations on the woody pod. 

You can harvest the pods and sow the seeds. However, some important information on shooting star plants is that the seeds require stratification, which you can mimic by putting the seed in the refrigerator for 90 days. Then plant the seeds outside in spring in a prepared bed located in sun to partial shade. Seeds germinate readily in moist soils.

Use this wildflower in the native garden or near a water feature or other moist area. Common shooting star only blooms for a short period in late May to very early June but has an unusual looking flower that is a harbinger of the growing season. This herbaceous perennial plant will grow 2 to 16 inches tall and adds interesting foliage texture and fabulous blooms for the natural garden.

Shooting star plants are short-lived perennials, which do not produce flowers the first year. shooting star care is minimal once they have established, but the plant will produce the best flower display if the stems are cut back in spring. The best flowers are produced in the third year and thereafter flowering diminishes. Common shooting star plants need protection from deer and elk, who dine on the early shoots in spring. Some moth and butterfly larvae are also pests of the plant. Keep old plant debris out of the garden where these pests hide and place a thick mulch of bark around the base of established plants to prevent damage.

Read More

Lily of the Valley-Expensive Flower

Lily of the Valley

Dark green leaves form a dense mat close to the soil, from which arching stems support small bell-shaped flowers, which are most commonly white or occasionally pink. With a heady, strong fragrance, the Lily of the Valley is popular not only for its scent but also for its ground-covering, spreading properties in shady conditions. It also produces small berries, which tend to be red or orange.

Lily of the Valley is native to the northern hemisphere and certain varieties can be found in countries such as America, China, and Japan. It likes a sheltered, moist habitat in either full or partial shade.

Convallaria majalis is sold in the spring as cut flowers and as a small potted plant. It can be planted from January to December and usually flowers between June and September. The seeds can be sown in containers or trays in a cold frame or greenhouse. Lily of the Valley can also be propagated by dividing mature plants in the autumn.

Belonging to the Asparagaceae family and the Nolinoideae subfamily, this hardy plant has a rhizomatous root system, sending out horizontal shoots from its nodes.

In the Victorian classic, The Language of Flowers, the Lily of the Valley is said to symbolize the return of happiness. Named for its native habitat (the Latin word "Corvallis" means enclosed valley), our Lily of the Valley is harvested along the beautiful coastline of Santa Barbara, California. 

Though lily of the valley bears dozens of blossoms, it can only last for less than a week. With bell-shaped flowers that infuse the air with fragrance throughout the day, it is the perfect addition to your bedside table or bathroom counter.

Read More

Electric cars riding high on Tech and Design Innovation

Electric cars riding high on Tech and Design Innovation

Byton SUV K-Byte

The Byton K-Byte Concept that made its global debut in Shanghai this year is designed for the age of autonomous driving. It comes with Level 4 autonomous driving program, expanded windows and sunroof, innovative C-pillar design, and an intuitive user interface that turns the vehicle into a living and working space. In its current stage, the car is 85% production-ready and production is expected to begin in late 2019. How much will all this cost? According to an Engadget, the price of admission for a base model will be around $45,000. Battery capacity of the car is 71 or 95 kWh for 250 miles (400 km) or 323 (520 km) of range. 

For more Information of Byton M-byte

Vision Mercedes Maybach 6 Cabriolet

Designed as an electric car, the Maybach 6 Cabriolet’s drive system has an output of 550 kW and a range of over 500 km/s. Measuring almost six meters in length, it incorporates the classic proportions of art deco design with its long bonnet. The interior offers the feeling of a 360-degree open-air lounge, while biometric sensors record the state of mind and health of the passengers. It measures nearly 18.7 feet long and 6.9 feet wide, yet offers just two seats. The wheels stand 24 inches tall. Although the 6 Cabriolet runs on battery power (its solitary nod to the future) and therefore lacks an engine, the hood makes up about half the car’s length.

Renault EZ Ultimo

Renault has unveiled the EZ-Ultimo, its all-electric, self-driving luxury limousine concept designed for short journeys. The concept completes a trio of autonomous vehicles from the French carmaker showcasing its vision of the future. Unveiled recently at the Paris Motor Show, the EZ Ultimo is a robot-vehicle concept that’s autonomous, electric, connected, and comes with a shared mobility service solution. Equipped with level 4 autonomous driving technology, it can adapt to an urban environment, to the motorway or to a shuttle service on dedicated roads. The EZ-Ultimo has a 499-km range and features level-four autonomy, which allows a car to drive it in most scenarios. It seats up to three people and is 5.8m long, a similar length to Rolls-Royce’s Phantom.

For more Information of Renault EZ Ultimo-Electric Car

Infiniti Q Inspiration

The Q Inspiration Concept brings a production-ready VC-Turbo power train, autonomous drive technologies, and a unique human-centric interior together to enrich the experience for driving a luxury sedan. The interior comes with a touch screen for each passenger and can also monitor passenger biometrics. As a concept, being more rooted in norms extends to the Q Inspiration’s mechanicals too, of which it actually has some? Far from explaining away the actual propulsive bits of the car through a mysterious black box attached to terms like ‘electrified’ and ‘zero emissions’, Infiniti actually fitted it with their newest production engine that’s due to have its market debut in the all-new QX50, where it generates 200kW and 380Nm.

Nissan Xmotion

This dramatic three-row SUV concept shows off Nissan’s design direction for 2020 and beyond. The exterior features a powerful presence with understated sculptural beauty and all-terrain type design. Inside, the displays and infotainment system can be controlled by gestures and eye movements. The SUV model is a three-row, six-seater with seven digital screens in its cabin, including one that spans the width of the dashboard, so also serves to demonstrate Nissan's expectations for future cabin technology. It’s a different story if Nissan decides to build a production model. Should that happen, I think Nissan’s going to opt for either a hybrid or electric technology. My first inclination is a powertrain similar to the one the IMx crossover reportedly has, specifically two "high-output" motors, one for each axle, that produce 429 horsepower and 516 pound-feet of torque combined. The powertrain also has a high-capacity battery that’s supposed to return a driving range of more than 372 miles per charge.

For more Information of Nissan Xmotion SUV

Envision Energy EV Concept

An electric car with a 75 KWh battery, the four-door luxury sedan can store as much electricity as an average European household consumes in a week. Powered by Envision’s IoT platform, it not only connects to a network of renewable energy assets but also communicates and shares energy with other vehicles and homes, enabling clean and affordable electricity in a smart future energy system.

Read More