Answer:
idk what hes eating so id just go with b? sorry if its wrong
\
Answer:
1/8
Explanation: I'm pretty sure it just keeps decreasing because, its goes 1/2, 1/4 then 1/8 and so on.
In this question we write your daily exercise, and the expected benefits for your daily physical activities.
<h3> Monday, May 23, Run 35 minutes</h3>
How does having skill-related aptitude help you succeed in your daily activities, at school and at home?
- Running gives me greater physical and mental strength in daily activities
Describe an exercise you did that helps improve your striking and reaction time skills.
- Exercises that require reflexes, such as playing soccer or tennis.
Describe how balance and/or coordination are needed for at least three things you do every day.
- To cook, tidy the house and walk
What was the hardest part of completing the leg action of stepping into the water or riding a bike in the air?
- it was the water resistance, which makes him more tired
Describe an outdoor activity you currently participate in or an outdoor activity you would like to do in the future, including necessary equipment and safety procedures.
- I enjoy running outdoors, I have the procedure to stretch before exercise and I also have good shoes to protect my spine from the impact of running.
Learn more about physical activities in brainly.com/question/2178829
#SPJ1
Answer:
There are a few things that have reactions forces in cricket it stars of with the ball bouncing off the grass after being thrown, there is a reaction force from the ground to the ball. The second time there is a reaction force is when the ball makes contact with the bat is providing an equal or greater reaction force to drive the ball. The third force is the force of the ball being caught to your body when the ball is caught there is a reaction force from your hands onto the ball.
Explanation:
For example:
If you drop a cricket ball out of a helicopter hovering 300 m above the ground, it will accelerate up to 123 km/hr in about 5 seconds, having fallen through a distance of about 100 m. It will then fall the remaining 200 m to the ground at 123 km/hr, without gaining any additional speed. At 123 km/hr, the force of gravity pulling the ball down is equal to the drag force of the air pushing it upwards. The total force on the cricket ball is then zero so it falls at a constant speed after the first 100 m."
A ball bowled horizontally at 123 km/hr experiences a backward horizontal drag force that is equal to the weight of the ball. At world record bowling speeds around 160 km/hr, the drag force is 1.7 times greater than the weight of the ball. Regardless of the speed of the ball when it leaves the bowler's hand, air resistance causes the ball to slow down by about 12% by the time it lands on the pitch. It slows down by another 30% or 40% when it hits the pitch, depending on the speed of the pitch and the angle of incidence. A ball bowled at 150 km/hr will arrive 0.46 s later at the batter's end, traveling at about 85 km/hr.
Hope this helped you!
