Tag: Cricket equipment

ICC cricket helmet technology testing

ICC Cricket Helmet Technology Testing

Brand Model Features Test Standards Result
XYZ Helmets Model X100 1. Outer Shell: Polycarbonate material ASTM F1045-20 Pass
2. Inner Padding: Impact-absorbing foam EN 1077:2007 Pass
3. Faceguard: Titanium alloy ICC/ASTM 2037:2020 Pass
ABC Gear Model G50 1. Outer Shell: Carbon fiber composite ASTM F1045-20 Pass
2. Inner Padding: Gel-infused foam EN 1077:2007 Pass
3. Faceguard: Stainless steel ICC/ASTM 2037:2020 Fail (Impact)

Explanation in Paragraph:

Cricket is a sport that involves high-speed deliveries from bowlers, and batsmen face the risk of getting hit by the cricket ball. To mitigate the potential risks of head injuries, the International Cricket Council (ICC) has taken helmet safety very seriously. To ensure the utmost safety of cricket players, the ICC has established rigorous testing standards for cricket helmet technologies.

In the table provided, we list two examples of ICC-approved helmet technologies, along with their respective features, test standards, and results. Let’s examine them in detail.

  1. XYZ Helmets – Model X100: XYZ Helmets’ Model X100 comes with an outer shell made from durable polycarbonate material, which is designed to withstand high-velocity impacts. The helmet’s inner padding comprises impact-absorbing foam, providing additional protection to the wearer’s head upon impact. The faceguard, constructed from titanium alloy, enhances the helmet’s overall strength and rigidity. This helmet model successfully passed the ASTM F1045-20 and EN 1077:2007 tests, meeting the ICC’s safety standards.
  2. ABC Gear – Model G50: ABC Gear’s Model G50 features an outer shell made from a lightweight yet strong carbon fiber composite. The inner padding utilizes gel-infused foam, which is designed to absorb and disperse impact energy effectively. However, during testing, the faceguard made from stainless steel did not perform as expected in one specific impact test. Consequently, it failed the ICC/ASTM 2037:2020 test in that particular aspect.

The ICC conducts various tests to assess the helmets’ performance against different impact scenarios. These tests ensure that the helmet technologies can effectively protect players from both high and low-speed impacts, simulating real-life cricket match situations. Helmets that pass these stringent tests are officially approved by the ICC and allowed for use in international cricket matches.

Overall, the ICC’s commitment to cricket helmet technology testing helps promote player safety and confidence while playing the sport. The advancements in helmet design and materials have significantly improved the level of protection offered to cricket players, reducing the risk of serious head injuries on the field.

ICC helmet safety standards

ICC Helmet Safety Standards

Aspect ICC Helmet Safety Standards
Purpose The standards aim to ensure the safety of cricketers by defining specifications for helmets used in international cricket.
Design and Construction Helmets must meet specific design and construction criteria, including materials, padding, and structural integrity.
Impact Resistance Helmets undergo rigorous testing for impact resistance, protecting players from potential head injuries during cricket matches.
Faceguard Requirements Faceguards are an integral part of helmet safety, with standards for coverage and strength to safeguard the face from impact.
Comfort and Fit Helmets must provide a comfortable and secure fit, ensuring ease of movement and minimizing distractions during play.
Ventilation and Airflow Adequate ventilation and airflow are considered, preventing overheating and enhancing player comfort during prolonged wear.
Certifications and Approvals Helmets are required to meet international safety certifications and gain ICC approval before use in international cricket.
Regular Inspection and Maintenance Players and teams are encouraged to inspect and maintain helmets regularly to ensure continued safety and effectiveness.
Manufacturer Guidelines Helmets must adhere to guidelines provided by manufacturers to optimize protection and performance during cricket activities.
Awareness and Education The ICC promotes helmet safety awareness and educates players, coaches, and stakeholders on the importance of proper helmet usage.

Explanation:

The ICC Helmet Safety Standards play a crucial role in protecting cricketers from potential head injuries and ensuring their safety during international cricket matches. The table presents various aspects of these safety standards, and here is a detailed explanation of each:

The primary purpose of the ICC Helmet Safety Standards is to define specifications for helmets used in international cricket, emphasizing the safety of players.

Design and Construction requirements ensure that helmets are built using appropriate materials, padding, and structural integrity to effectively protect players from head injuries.

Impact Resistance testing involves subjecting helmets to rigorous tests to verify their ability to withstand impacts and safeguard players during matches.

Faceguard Requirements ensure that helmets have suitable faceguards that cover the face adequately and possess the necessary strength to withstand impact.

Comfort and Fit considerations ensure that helmets provide a comfortable and secure fit, allowing players to move freely and focus on the game without distractions.

Ventilation and Airflow aspects ensure that helmets have proper ventilation to prevent overheating, maintaining player comfort during prolonged wear.

Certifications and Approvals involve helmets meeting international safety certifications and gaining ICC approval, ensuring they meet the required safety standards.

Regular Inspection and Maintenance encourage players and teams to inspect and maintain helmets regularly, ensuring their continued safety and effectiveness.

Manufacturer Guidelines specify that helmets must adhere to guidelines provided by manufacturers to optimize protection and performance during cricket activities.

Awareness and Education initiatives by the ICC promote helmet safety awareness among players, coaches, and stakeholders, emphasizing the importance of proper helmet usage to prevent injuries.

In conclusion, the ICC Helmet Safety Standards are paramount in protecting cricketers from head injuries during international cricket matches. By defining specific criteria for helmet design, construction, impact resistance, faceguards, fit, ventilation, and certifications, the ICC ensures that players are equipped with helmets that offer optimal protection. Regular inspections, adherence to manufacturer guidelines, and awareness campaigns further reinforce the importance of helmet safety in the sport. With these stringent safety measures in place, cricketers can confidently focus on their game, knowing that they are well-protected by helmets that meet international safety standards.

Bat size regulations in cricket

Bat Size Regulations in Cricket

Level of Cricket Maximum Bat Dimensions Maximum Edge Thickness Maximum Spine Height Maximum Weight
International Length: 38 inches (96.5 cm) Width: 4.25 inches (10.8 cm) 1.56 inches (4.0 cm) 2.64 inches (6.7 cm) 3 lb (1.4 kg)
First-Class/ List A Length: 38 inches (96.5 cm) Width: 4.25 inches (10.8 cm) 1.56 inches (4.0 cm) 2.64 inches (6.7 cm) 3 lb (1.4 kg)
Under 19, Under 17, Under 15 Length: 34 inches (86.4 cm) Width: 4.25 inches (10.8 cm) 1.56 inches (4.0 cm) 2.64 inches (6.7 cm) 2 lb 7 oz (1.1 kg)
Under 13, Under 11, Under 9 Length: 32 inches (81.3 cm) Width: 4.25 inches (10.8 cm) 1.56 inches (4.0 cm) 2.64 inches (6.7 cm) 2 lb 4 oz (1.0 kg)

Explanation:

Bat size regulations in cricket are crucial to maintaining a balance between the bat’s power and the fairness of the game. The dimensions and weight restrictions of bats vary based on the level of cricket being played. These regulations are imposed by the International Cricket Council (ICC) and national cricket boards to prevent bats from becoming too large and overpowering the bowlers.

At the international level, the maximum dimensions of a cricket bat are 38 inches (96.5 cm) in length and 4.25 inches (10.8 cm) in width. The edge thickness should not exceed 1.56 inches (4.0 cm), and the spine height should be no more than 2.64 inches (6.7 cm). The maximum allowed weight for an international cricket bat is 3 pounds (1.4 kg).

In first-class and List-A cricket, the bat size regulations are the same as in international cricket.

For youth cricket, the regulations are more restrictive to ensure the safety of young players and maintain a level playing field. In under-19, under-17, and under-15 cricket, the maximum bat length is 34 inches (86.4 cm), and the maximum weight is limited to 2 pounds 7 ounces (1.1 kg). The edge thickness and spine height restrictions remain the same as in international cricket.

In under-13, under-11, and under-9 cricket, the bat size is further reduced, with a maximum length of 32 inches (81.3 cm) and a maximum weight of 2 pounds 4 ounces (1.0 kg). The edge thickness and spine height remain consistent with the other youth levels.

These regulations help prevent bats from becoming excessively heavy and unmanageable for players. They also aim to preserve the balance between bat and ball, ensuring that the sport remains competitive and enjoyable for players and fans alike.

Bat size regulations are periodically reviewed and updated by the governing bodies to adapt to changes in equipment technology and maintain the integrity of the game. By setting these standards, cricket authorities ensure that the game’s traditions and values are preserved while embracing innovation and development in cricket equipment.

DRS ball tracking in cricket

DRS Ball Tracking in Cricket

Topic Description
What is DRS? Decision Review System (DRS) is a technology used in cricket to review on-field decisions through ball tracking and other tools.
Ball Tracking DRS ball tracking employs Hawk-Eye technology to trace the path of the ball, analyzing its trajectory and predicting its future path.
Umpire’s Call The on-field umpire’s decision stands if DRS shows the ball marginally hitting the stumps, known as the “Umpire’s Call”.
Hawkeye Accuracy Hawk-Eye is highly accurate and used for LBW decisions, helping eliminate errors and enhancing fair play.
Impact on Decision-Making DRS has significantly improved decision-making by reducing errors, especially in critical situations and close calls.
Player Challenges Each team has a limited number of DRS challenges per innings to review on-field decisions they disagree with.
Ball-Tracking Challenges DRS faces challenges on uneven pitches or when the ball’s trajectory is obstructed by players or other factors.
Hot Spot and Snicko DRS also uses Hot Spot and Snicko technologies to detect edges and contact with the bat for better decision-making.
Controversies Despite its benefits, DRS has been a subject of controversy due to instances of inconclusive results or human errors during reviews.
Future Developments Continuous advancements in technology aim to enhance DRS further, reducing controversies and maximizing its accuracy.

Explanation:

DRS, short for Decision Review System, is a revolutionary technology that has changed the landscape of cricket by providing teams with an opportunity to review on-field decisions. At its core, DRS ball tracking relies on Hawk-Eye technology, which accurately tracks the path of the ball from the moment it leaves the bowler’s hand. By analyzing the trajectory, Hawk-Eye can predict the ball’s future path and determine its probable impact on the stumps.

One critical aspect of DRS is the concept of “Umpire’s Call.” If the ball is predicted to marginally hit the stumps and the on-field umpire’s original decision was not out or out, the umpire’s call stands. This decision has been a subject of debate and contention in many matches, as it can have a significant impact on the game’s outcome.

Hawk-Eye’s accuracy in detecting LBW (Leg Before Wicket) decisions has been impressive, reducing errors and ensuring fair play. DRS has become a game-changer, especially in close matches, where one wrong decision could alter the course of the game.

Teams have a limited number of DRS challenges per innings, adding an element of strategy and careful consideration to their use. The system is not without challenges, though. DRS can face difficulties on uneven pitches, and factors like player obstruction may affect the accuracy of ball tracking.

In addition to ball tracking, DRS also employs other technologies like Hot Spot and Snicko. Hot Spot uses infrared cameras to detect faint edges from the bat, while Snicko registers the faintest of sounds to confirm if the ball touched the bat.

Despite its numerous advantages, DRS has not been free from controversy. Instances of inconclusive results and human errors during reviews have led to debates about its reliability. However, cricket’s governing bodies continue to refine the system to minimize these issues and ensure the best possible outcome.

The future of DRS looks promising, with ongoing advancements aimed at improving its accuracy and resolving any lingering controversies. As technology evolves, DRS is expected to play an even more integral role in cricket, promoting fairness and accuracy in decision-making and enhancing the overall spectator experience.

Hot Spot in cricket

Hot Spot in Cricket

Aspect Description
Definition Hot Spot is an infrared-based technology used in cricket to detect ball-to-bat contact through thermal imaging.
Camera Setup High-speed infrared cameras are positioned on either side of the pitch to capture ball and bat interactions.
Ball-Contact Analysis The cameras detect temperature changes caused by friction when the ball hits the bat, creating a “hot spot.”
Visual Representation Hot Spot presents a visual representation of the “hot spot” as a bright mark on the bat during ball contact.
Umpire’s Decision Review The third umpire utilizes Hot Spot as part of the Decision Review System (DRS) to assist in making accurate decisions.
Edge Detection Hot Spot is particularly useful in detecting faint edges, which might not be evident to the naked eye.
Limitations Environmental conditions, the timing of the ball’s impact, and faint edges can sometimes affect its accuracy.
Combination with Snickometer Hot Spot is often used in conjunction with Snickometer to provide comprehensive evidence for edge decisions.
Broadcasting Enhancement Hot Spot adds an engaging element to cricket broadcasts, allowing viewers to witness critical ball-to-bat contacts.
Player Reviews Players can challenge umpire decisions by requesting a review that includes the use of Hot Spot technology.
Continuous Development Ongoing research and improvements are made to enhance Hot Spot’s accuracy and minimize potential errors.

Explanation:

Definition: Hot Spot is a cricket technology that employs infrared cameras to detect ball-to-bat contact during gameplay through thermal imaging.

Camera Setup: High-speed infrared cameras are strategically positioned on either side of the pitch to capture ball and bat interactions.

Ball-Contact Analysis: When the ball makes contact with the bat, friction generates heat, causing a temperature change. The cameras identify these temperature fluctuations, creating a “hot spot.”

Visual Representation: Hot Spot displays the “hot spot” as a bright mark on the bat during ball contact. This visual representation assists in identifying contact points.

Umpire’s Decision Review: The third umpire uses the Hot Spot as part of the Decision Review System (DRS) to make more accurate decisions, especially in cases where there might be slight edges.

Edge Detection: Hot Spot is particularly valuable in detecting faint edges that might not be apparent to the naked eye or even the on-field umpire.

Limitations: Hot Spot’s accuracy can be influenced by environmental conditions, the timing of the ball’s impact on the bat, and instances where the edges are minimal.

Combination with Snickometer: Hot Spot is often used in conjunction with Snickometer, another technology, to provide comprehensive evidence for making edge decisions.

Broadcasting Enhancement: Hot Spot enhances cricket broadcasts by allowing viewers to witness critical ball-to-bat contacts, adding to the excitement and engagement during matches.

Player Reviews: Players can challenge umpire decisions by requesting a review that includes the use of Hot Spot technology to support their claims.

Continuous Development: To ensure its reliability, Hot Spot undergoes continuous research and improvements to enhance accuracy and minimize any potential errors. It remains an essential tool in modern cricket, aiding in making crucial decisions and promoting fair play.

Cricket stumps and bails

Cricket Stumps and Bails:

Specification Description
Stumps Material Typically made of wood, usually white in color.
Stumps Height 71.1 centimeters (28 inches)
Stumps Diameter 2.54 centimeters (1 inch)
Stumps Weight Approx. 0.907 kg (2 pounds) each.
Number of Stumps Three stumps are used to form the wicket.
Bails Material Also made of wood, placed on top of the stumps.
Bails Length 11.81 centimeters (4.67 inches)
Bails Weight Approx. 0.057 kg (0.126 pounds) each.
Dislodging the Bails To get a batsman out, the bowler must dislodge the bails from the stumps.

Explanation:

Cricket stumps and bails are integral parts of the wicket, defining the batting and bowling ends of the pitch. Here are the details of cricket stumps and bails:

  1. Stumps Material: Cricket stumps are usually made of wood, providing durability and stability. They are often painted white for visibility.
  2. Stumps Height: The standard height of cricket stumps is 71.1 centimeters (28 inches) from the ground.
  3. Stumps Diameter: The stumps have a diameter of 2.54 centimeters (1 inch), ensuring uniformity.
  4. Stumps Weight: Each stump weighs approximately 0.907 kilograms (2 pounds).
  5. Number of Stumps: Three stumps are used to form the wicket, positioned in a straight line with gaps between them.
  6. Bails Material: Cricket bails are also made of wood and rest on top of the stumps.
  7. Bails Length: The standard length of the bails is 11.81 centimeters (4.67 inches).
  8. Bails Weight: Each bail weighs around 0.057 kilograms (0.126 pounds).
  9. Dislodging the Bails: To dismiss a batsman, the bowler must deliver the ball in a way that causes the bails to be knocked off the stumps.

The stumps and bails play a crucial role in determining whether a batsman is out or not. When the bails are dislodged, it indicates that the stumps have been disturbed, signaling the dismissal of the batsman. The three stumps provide a target for the bowler to aim at, while the bails resting on top ensure that the stumps are securely placed. These simple yet crucial components ensure the fairness and accuracy of the game’s decisions.

Cricket bat specifications

Cricket Bat Specifications:

Specification Value
Weight Maximum 1.4 kilograms (3 lb)
Length Maximum 96.5 centimeters (38 inches)
Width (Blade) Maximum 10.8 centimeters (4.25 inches)
Width (Handle) Maximum 3.7 centimeters (1.46 inches)
Blade Thickness Maximum 6.8 centimeters (2.68 inches)
Handle Type Round, Oval, or Semi-Oval
Handle Material Wood (usually cane, willow, or composite)
Sweet Spot Typically located around the mid-to-lower part of the blade.
Grip Material Rubber or synthetic

Explanation:

The cricket bat is an essential piece of equipment for batsmen. The International Cricket Council (ICC) sets specific specifications to ensure fairness and standardization. Here are the details of cricket bat specifications:

  1. Weight: The maximum allowed weight for a cricket bat is 1.4 kilograms (3 pounds).
  2. Length: The cricket bat’s maximum permissible length is 96.5 centimeters (38 inches).
  3. Width (Blade): The maximum width of the blade should not exceed 10.8 centimeters (4.25 inches).
  4. Width (Handle): The handle’s maximum width should be within 3.7 centimeters (1.46 inches).
  5. Blade Thickness: The maximum blade thickness allowed is 6.8 centimeters (2.68 inches).
  6. Handle Type: Cricket bats can have round, oval, or semi-oval handles based on player preference.
  7. Handle Material: Cricket bat handles are typically made from wood, with cane, willow, or composite being common choices.
  8. Sweet Spot: The bat’s sweet spot is a critical area for optimal hitting, usually located around the mid-to-lower part of the blade.
  9. Grip Material: Batsmen use rubber or synthetic grips on the handle for better hold and control.

These specifications ensure that batsmen use equipment of similar dimensions, providing a level playing field. Cricket bats made within these specifications allow for a balance between power and control, enabling batsmen to play a wide range of shots effectively. The choice of handle type and material influences a player’s comfort and preference. The sweet spot, being the most responsive part of the bat, is where batsmen aim to connect with the ball to generate maximum power and placement. A proper grip ensures better handling and maneuverability while playing different shots. Overall, adhering to cricket bat specifications is crucial for maintaining the integrity and fairness of the game.

Cricket ball specifications

Cricket Ball Specifications:

Specification Value
Weight 155.9 – 163.0 grams (5.5 – 5.75 ounces)
Circumference 22.4 – 22.9 centimeters (8.81 – 9.01 inches)
Diameter 7.05 – 7.30 centimeters (2.77 – 2.87 inches)
Core Cork and string wound
Cover Leather
Seam 6 rows of stitching
Color Red for Test cricket, White for limited-overs formats.
Swing Swing is possible due to the polished side and seam orientation.

Explanation:

The cricket ball is a crucial element of the game, and its specifications are defined by the International Cricket Council (ICC). Here are the details of cricket ball specifications:

  1. Weight: The standard weight of a cricket ball used in international matches is between 155.9 to 163.0 grams (5.5 to 5.75 ounces).
  2. Circumference: The circumference of the cricket ball is between 22.4 to 22.9 centimeters (8.81 to 9.01 inches).
  3. Diameter: The diameter of the cricket ball ranges from 7.05 to 7.30 centimeters (2.77 to 2.87 inches).
  4. Core: The core of the cricket ball is made of cork and is surrounded by layers of string wound around it.
  5. Cover: The outer covering of the cricket ball is made of leather, which provides durability and grip for bowlers.
  6. Seam: The cricket ball has a prominent seam that consists of six rows of stitching. The seam plays a crucial role in ball movement and swing.
  7. Color: The color of the cricket ball varies based on the format. In Test cricket, the ball is traditionally red, while in limited-overs formats (ODIs and T20Is), it is white.
  8. Swing: The cricket ball can swing in the air, especially in certain conditions, due to the polished side and seam orientation.

The specifications of the cricket ball are essential to maintain consistency and fairness in the game. The weight and dimensions are standardized to ensure an even contest between bat and ball. The seam and swing characteristics make the cricket ball challenging for batsmen to face and add excitement to the game, especially in favorable bowling conditions. The color distinction between formats helps players adapt their strategies and tactics accordingly. Overall, the cricket ball is a critical component that influences the dynamics of the game and contributes to the thrill and spectacle of cricket.

Cricket equipment

Cricket Equipment:

Equipment Description
Cricket Bat The wooden blade is used by batsmen to hit the ball.
Cricket Ball Hard leather ball, essential for bowling and batting.
Cricket Stumps Three wooden sticks form the wickets.
Cricket Bails Two small wooden pieces were placed on top of the stumps.
Cricket Helmet Protective headgear is worn by batsmen and wicketkeepers.
Cricket Pads Leg guards are worn by batsmen for protection.
Cricket Gloves Protective gloves are worn by batsmen and wicketkeepers.
Cricket Thigh Guard Guard protecting the thigh area of the batsman.
Cricket Chest Guard Guard protecting the chest area of the batsman.
Cricket Arm Guard Guard protecting the forearm of the batsman.
Cricket Abdominal Guard Guard protecting the lower abdomen of the batsman.
Cricket Wicketkeeping Gloves Special gloves are worn by wicketkeepers.
Cricket Wicketkeeping Pads Leg guards are worn by wicketkeepers.
Cricket Wicketkeeping Inner Gloves Thin gloves worn inside wicketkeeping gloves.
Cricket Wicketkeeping Inner Thigh Guard Guard for wicketkeepers’ inner thigh protection.
Cricket Wicketkeeping Chest Guard Guard for wicketkeepers’ chest protection.
Cricket Wicketkeeping Helmet Helmet with additional face protection for wicketkeepers.
Cricket Batting Helmet Visor Attachable visor for added face protection.
Cricket Arm Sleeves Sleeves provide arm protection for bowlers and batsmen.
Cricket Elbow Guard Guard protecting the elbow area of the batsman.
Cricket Shin Guards Guards protecting the shins and knees of batsmen.
Cricket Kit Bag The bag is used to carry and store cricket equipment.
Cricket Shoes Specialized shoes with spikes for better grip on the field.
Cricket Wicket Pitched on the ground and used to play the game.
Cricket Scoreboard The board displays the current score and match information.
Cricket Umpire Gear Equipment used by umpires, including clothing, hat, and accessories.
Cricket Pitch Marker Line markers are used to mark creases and boundary lines.

Explanation:

Cricket equipment is essential for players’ safety and optimal performance on the field. Here are the main cricket equipment and their roles:

  1. Cricket Bat: A wooden blade used by batsmen to hit the ball and score runs.
  2. Cricket Ball: A hard leather ball bowled by the bowlers and hit by batsmen.
  3. Cricket Stumps: Three wooden sticks are planted in the ground, forming the wickets.
  4. Cricket Bails: Two small wooden pieces resting on top of the stumps.
  5. Cricket Helmet: Protective headgear worn by batsmen and wicketkeepers to guard against head injuries.
  6. Cricket Pads: Leg guards worn by batsmen to protect against ball impact.
  7. Cricket Gloves: Protective gloves worn by batsmen and wicketkeepers for hand safety.
  8. Cricket Thigh Guard: Guard providing protection to the thigh area of the batsman.
  9. Cricket Chest Guard: Guard offers protection to the chest area of the batsman.
  10. Cricket Arm Guard: Guard protecting the batsman’s forearm from impact.
  11. Cricket Abdominal Guard: Guard for protecting the lower abdomen of the batsman.
  12. Cricket Wicketkeeping Gloves: Special gloves worn by wicketkeepers to catch the ball.
  13. Cricket Wicketkeeping Pads: Leg guards worn by wicketkeepers for protection.
  14. Cricket Wicketkeeping Inner Gloves: Thin gloves worn inside wicketkeeping gloves for comfort.
  15. Cricket Wicketkeeping Inner Thigh Guard: Guard for additional inner thigh protection of wicketkeepers.
  16. Cricket Wicketkeeping Chest Guard: Guard offering chest protection for wicketkeepers.
  17. Cricket Wicketkeeping Helmet: Helmet with added face protection for wicketkeepers.
  18. Cricket Batting Helmet Visor: Attachable visor for extra face protection for batsmen.
  19. Cricket Arm Sleeves: Sleeves provide arm protection for bowlers and batsmen.
  20. Cricket Elbow Guard: Guard for the protection of the batsman’s elbow area.
  21. Cricket Shin Guards: Guards protecting the shins and knees of batsmen.
  22. Cricket Kit Bag: Bag used to carry and store cricket equipment.
  23. Cricket Shoes: Specialized shoes with spikes for better grip on the field.
  24. Cricket Wicket: The area marked on the ground where the batsmen stand and play.
  25. Cricket Scoreboard: A board displaying the current score and match information.
  26. Cricket Umpire Gear: Equipment used by umpires, including clothing, hat, and accessories.
  27. Cricket Pitch Marker: Line marker used to mark creases and boundary lines on the field.

Each piece of cricket equipment plays a vital role in ensuring players’ safety and enhancing their performance during the game.