The two major factors are; friction between tires and road; friction between brake pads and rotors.
Wind speed plays a small role that is usually much less of an effect than the aforementioned.
1). the product of both their masses 2). the distance between the centers of both objects
limiting factors
The focal length of the lens and the distance between the lens and the object.
To determine average speed, you need to know what distance the object traveled in meters over how long it took the object to travel that distance in seconds.
The factors are:-1. Distance from the sea2. Ocean currents3. Direction of prevailing winds4. Relief5. Proximity to the equator6. The El Nino phenomenon7. Recently it has accepted that Human activity is also affecting climate.8. Locationor...1. Latitude - Distance north or south of equator2. Altitude - Distance above or below sea level3. Global Winds - What winds are blowing/where they're coming from/warm or cold4. Ocean currents - What currents are coming in/where from5. Topography - Distance from mountains (how close they are)6. Distance From Water - How close the area is to and ocean or lake (any body of water)These are the main most important 6.latitude, prevailing winds, mountains, large bodies of water, and ocean currents.Precipitation, latitude, trapping of heat, winds and ocean currents, shape and elevations of land masses. (Prentice Hall Biology)A:latitude ocean currentswindelevationreliefnear waterA:The factors that determine climate are latitude, distance from water, elevation, and ocean currents A:it is sun, location, water, wind, and mountains.LattitudeThe factors that determine climate are temperature, precipitation, altitude, location, latitude, tilt of the axis, surface currents, winds, and elevation.The latitude, the transportation of heat by winds and ocean currentsLatitude, Altitude, Mountain Barriers, Ocean Currents, Land-Water Relationship, and Prevailing Winds.five factors that determine climate is elevation, latitude, weather, ,and biome
The stopping distance at 55 mph varies based on factors like vehicle type, road conditions, and braking efficiency. On average, it takes about stopping distance of stopping distance of 200-250 feet to come to a complete stop, which includes both the reaction distance (the distance traveled while the driver reacts) and the braking distance. If you consider a reaction time of about 1.5 seconds, this adds roughly 120 feet to the total stopping distance.
The total stopping distance is determined by a combination of factors including the driver's reaction time, the vehicle's braking distance, the road conditions (like wet or icy roads), and the speed at which the vehicle is traveling. These factors interact to determine how long it takes for a vehicle to come to a complete stop.
Factors that determine the distance it takes to stop your vehicle include your vehicle's speed, road conditions, weather conditions, your reaction time, and the condition of your brakes and tires. These factors all play a role in the overall stopping distance of your vehicle.
The stopping distance of a vehicle is determined by factors such as the speed of the vehicle, the reaction time of the driver, the condition of the road (wet, dry, icy), the condition of the tires (tread depth and pressure), and the overall weight and braking system of the vehicle. All these factors play a role in how quickly a vehicle can come to a stop in an emergency situation.
To calculate the stopping distance, we need more information such as the mass of the car and the acceleration. The force alone is not sufficient to determine the stopping distance.
When ABS is engaged, factors like surface roughness, tire grip, and braking force can affect stopping distance. On certain surfaces, such as gravel or ice, these factors may lead to a longer stopping distance when ABS is activated.
The color of the vehicle does not affect the total stopping distance. Factors that do affect stopping distance include speed, road conditions, driver reaction time, and vehicle condition.
The stopping distance of a car can be determined by considering the car's speed, reaction time of the driver, and the braking distance required to come to a complete stop. The stopping distance is the sum of the reaction distance (distance traveled during the driver's reaction time) and the braking distance (distance traveled while the brakes are applied). It can be calculated using the formula: Stopping distance Reaction distance Braking distance.
The stopping distance of a vehicle can be determined by considering the reaction time of the driver, the braking distance of the vehicle, and the speed at which the vehicle is traveling. The stopping distance is the sum of the distance traveled during the driver's reaction time and the distance traveled while the vehicle is braking to a complete stop. It is important to factor in variables such as road conditions, weather, and the condition of the vehicle's brakes when calculating stopping distance.
The distance your vehicle travels while stopping, known as the stopping distance, is the sum of the reaction distance and the braking distance. The reaction distance is the distance your vehicle travels from the moment you perceive a hazard until you physically hit the brakes. The braking distance is the distance your vehicle travels once the brakes are applied until the vehicle comes to a complete stop. Factors such as speed, road conditions, and vehicle condition can all affect the overall stopping distance.
Time and distance
distance and time