SWC75
Bored Historian
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I’ve always been someone who likes to look at the statistical record before making conclusions about things in sports. Statistics don’t end arguments but they put them on an objective basis: even if you are going to conclude something counter to them you have to know what the stats are so you can understand what they are telling you and construct an argument around them.
Traditional baseball numbers, as revered as they are, have been poor measures of how productive a player actually is. A batting average is not an average: it is a percentage of times a player gets a hit in at bats where he doesn’t walk, sacrifice, get hit by a pitch or get on base due to an error. Why not make it a percentage of all plate appearances: if he got on base due to an error, why should that be different- to him- than an out? There are players with high batting averages with no power who don’t walk and thus neither drive in or score a lot of runs, (Rod Carew, who drove in and scored 100 runs the year he hit .388 but did neither in any other year). There are home run hitters with mediocre batting averages but who walk a lot and they both score and drive in a lot of runs, (Harmon Killebrew, who never batted .300 but drove or scored 100 runs 11 times). There are home run hitters who struck out a lot, didn’t walk all that much and had low batting averages. They might hit a home run once a week but what about the rest of the time? There are base stealers like Luis Aparicio, who led the league 9 times in a row but never scored 100 runs because he hit .300 only once, rarely walked and had mediocre power. Eddie Yost stole 72 bases in his career, never hit .300, had a little more power but not a lot but scored 100 runs 5 times because he lead the league in walks six times.
It’s clear that baseball stats were in need of revision to refocus them on the goals of scoring runs and winning games. That’s why all the modern baseball stats that have come out in recent years were developed.
But I also think sports is supposed to be fun: we aren’t trying to put a man on the moon, just get an idea of why one team won, the other lost and how the players contributed to the result. I think numbers should be easy to compute and it should be clear to the average fan what they represent. “Earned Run Average” should be as complicated as it gets. Take the number of runs the official scorer feels should be blamed on the pitcher, divide by the number of innings pitched and multiply by 9 to determine how many runs he’d give up, on average, over nine innings that are his fault. I’m not into the fancy new stats that have come out in recent years with the weird names, such as “Total Average”, (an oxymoron), “Offensive Won-Lost Percentage”, “Super Linear Weights“, “Value Over Replacement” and “Win Shares”, among many others.
Bill James came up with a stat, “Runs Created” to determine how batting and base running contribute to the scoring of runs. His initial formula was: (hits + walks) x (total bases) divided by (at bats + walks). One problem I have with that is that hits, which are part of total bases, are counted twice. And why ‘times’ total bases? But he then factored in steals: (hits + walks - caught stealing) x (total bases + steals) divided by (at bats + walks). Eventually he expanded that to what he called his “technical version”: (hits + walks + hit by pitch - caught stealing - grounded into double play) x (total bases + 26% of (walks - minus intentional walks plus hit by pitch) + 52% of (sacrifice hits + sacrifice flies + stolen bases) decided by (at bats + walks + hit by pitch n+ sacrifice hits + sacrifice flies). Then he expanded that in 13 different “technical” formulas for different eras of baseball to acknowledge statistical gaps and differences in three eras. James goes to great lengths to prove that these formulas can predict runs actually scored but never explains why it is preferable to predict them rather than that to look them up and see how many runs were actually scored, as in “runs produced”: (runs + runs batted in) - home runs, (so they don’t get counted twice). What did happen means more that what should have happened. You’re trying to0 break down actual games, not create fantasy games.
Later when he came us with his revolutionary new system for evaluating players, Win Shares, Bill had to write an entire book to explain it, 85 pages of which are devoted to the formula he uses for it. A brief idea of it is that you divide up credit for the teams wins among it’s players by this statistical formula. Actually, you don’t divide up credit for the actual number of wins. You divide up credit for three times the number of wins. I won’t bother going beyond that.
One of the simpler formulas that have become popular these days is “On Base Plus Slugging”, or OPS, sometimes simply called “Production“. You add a player’s On Base Percentage to his Slugging Percentage and you’ve measured how often he hits, how hard he hit’s the ball and how many times he gets on base. Like that spaghetti sauce, whatever you are looking for “it’s in there”. First you compute On Base Percentage: (hits + walks + hit by pitch) divided by (official at bats plus walks plus hit by pitch). Then you compute slugging percentage: total bases divided by official at bats. “Official” at bats are total plate appearances minus walks, hit by pitch and sacrifices. Total bases are hits expanded to give one base for a single, two for a double, three for a triple and four for a home run.
Then you add the two percentages together to get a total” production” stat derived from some traditional numbers.
But you are adding percentages together, something that might make sense if the total opportunities, (divisors) were the same on both sides of the computation, which they aren’t here. And, again, hits are being double-counted in both the number of times on base and total bases. The resulting number is just that, a number: In 1961, Roger Maris had an OPS of .997 and Mickey Mantle had an OPS 1.138. But what does that mean? Mickey Mantle produced 1.138 something per every at bat? But is it per every ‘official’ at bat or all plate appearances or somewhere in between? And what is the “something“? Is it bases? When hits are counted twice? Should we count being hit by a pitch, when a batter isn’t trying to do that?
I think the average fan, (like me) gets lost in all this. Sports stats should be easily and logically computed, produce a number the meaning of which is clear and have a title which meets the same standard. Ideally a fan should be able to see a play on the field and be able to figure in his head how that changes the number. Averages are important in evaluating a player’s capabilities but gross numbers measure his actual achievements. Games are won by the plays you actually did make, not by projected accomplishments. If you are comparing starters with reserves, averages and percentages can be useful, but in ranking top players, I feel that gross numbers are better. They all start and usually play the whole game. You could still use averages to compare a player who missed a lot of games with one who played the whole season but what was the impact of the injured player on the games he didn’t play? Zero. That’s not reflected in the averages. It is in the gross figures.
There’s a lot of emphasis on isolating players from their teammates so that they can be measured as individuals. Runs scored and driven in are seen has being too much influenced by teammates even though they are obviously “bottom-line” figures: what you are trying to accomplish so you can win the game. So the new formulas emphasize “above the line” figures that are only important insofar as they contribute to the scoring of runs on the assumption that the above the line figures- hits, power, walks, steals, etc. are not or less affected by your teammates. I don’t buy it. Everything you do is affected by your teammates. If you have good teammates that create more scoring situations, drive you in more, and see to it that you have to be pitched to and have pitches to steal bases on, they are allowing you to fully display your skills and accomplish more. And when you watch games, it becomes obvious that it’s not just what you do but when you do it that counts.
With all this in mind, I thought about coming up with a simple way of ranking the offensive production of the best players in baseball. I prefer “runs produced” to “runs created” for evaluating actual scoring. As to base production, (which is what most of the modern formulas are really about), I tried to boil down OPS to something that made more sense. Take total bases, (one base for a single, two for a double, three for a triple and four for a home run), add walks and stolen bases.
In 1961, Roger Maris had 159 hits, which included 16 doubles, 4 triples and 61 home runs for 366 “total bases“, (really total hitting bases). He also walked 94 times. He didn’t steal a base. By the latest stats on baseballreferecne.com he had 141 RBIs, (not, as been historically listed, 142), and 132 runs scored. He produced (132 + 141 - 61 =) 212 runs and (366 + 94 +0 =) 460 bases. If you like averages, to keep to my theme of simplicity, I’d suggest simply averaging the numbers per game played, as the leagues top players will tend to be starters and play most or all of every game. Roger played 161 games in 1961 (and hit those 61 homers). He averaged 2.86 bases and 1.32 runs per game.
In 1961, Mickey Mantle had 163 hits, which included 16 doubles, 6 triples, 54 home runs for 353 total bases. He walked 126 times and stole 12 bases. He scored 131 runs, (not 132, as previous sources list) and drove in 128. He produced (131 + 128 - 54 =) 205 runs and (353 + 126 + 12 =) 491 bases. Mickey played 153 games and averaged 3.21 bases per game and 1.34 runs per game.
I think that’s easier to understand and more meaningful than Maris has a OPS of .997 and Mantle is at 1.138, or that Roger created, (by the simplest formula) 135 runs compared to 159 for Mickey, (when Roger produced 212 to Mickey’s 205), or that Roger had 36 “win shares“ and Mickey 48. It’s also more meaningful than Maris batted .269 and Mantle .317 or even that Maris hit 61 home runs to Mantle’s 54. They were comparable players that year, but Mickey was a little better.. Mantle produced more bases because he walked more and stole bases but Maris was the slightly better run producer. Incidentally, Maris batted third and Mantle 4th, so Mickey often drove Roger in but Roger didn’t drive Mickey in. One wonders if they might have been even more productive if they’d switched positions in the order, since Mickey got on base more.. But they were in a potent line-up so they both had plenty of opportunities to make good on their hitting and base running skills.
Again, numbers don’t answer all the questions you’d want to ask in ranking players and these numbers are only about tangible offensive contributions, not about defense, leadership, “the little things that show up in the box score“, etc. But I think everyone should know about them as they think and talk about players. And the numbers every kid knows about his favorite player shouldn’t be his batting average or even how many home runs he hit but how many bases has he produced and how many runs has he produced. It’s simple and meaningful. And I’m sure those enamored of more complicated stats can make a case for their stats being more precise measurements of a player’s abilities but I doubt their rankings of players would be that much different, for all the extra work. And a fan can watch a game and see a player hit a double, drive in a run, steal a base and score on a sac fly and realize that that player just produced three more bases and two more runs to add to his total in the morning paper. He wouldn’t need a calculator for that.
With that as a background, I thought I’d make a monthly post of the top ten in each league in bases and runs produced. Again there’s no need to ignore any other numbers, but you might want to have a look at these, especially at the end of the year when people start arguing about who should win awards.
After August, 2012 (I did this on 9/2/12 so it actually includes games of September 1st)
NATIONAL LEAGUE
Bases Produced
Ryan Braun MIL 365 in 124 games = 2.94 per game
Andrew McCutchen PIT 343 in 127 games = 2.70 per game
David Wright NY 330 in 129 games = 2.56 per game
Matt Holliday STL 326 in 130 games = 2.51 per game
Michael Bourn ATL 314 in 132 games = 2.38 per game
Jose Reyes MIA 313 in 131 games = 2.39 per game
Carlos Gonzalez COL 311 in 117 games = 2.66 per game
Chase Headley SD 311 in 133 games = 2.34 per game
Jason Heyward ATL 306 in 130 games = 2.35 per game
Aaron Hill ARZ 302 in 120 games = 2.52 per game
Runs Produced
Matt Holliday STL 151 in 130 games = 1.16 per game
Andrew McCutchen PIT 146 in 127 games = 1.15 per game
Ryan Braun MIL 145 in 124 games = 1.17 per game
Aramis Ramirez MIL 143 in 122 games = 1.17 per game
Freddie Freeman ATL 142 in 119 games = 1.19 per game
David Wright NY 140 in 129 games = 1.09 per game
Hunter Pence PHI/SF 136 in 131 games = 1.04 per game
Carlos Gonzalez COL 142 in 117 games = 1.21 per game
Melky Cabera SF 133 in 113 games = 1.18 per game
Jay Bruce CIN 132 in 128 games = 1.03 per game
Chase Headley SD 132 in 133 games = 0.99 per game
Comment: Ryan Braun is carrying some baggage from his drug suspension and so he may find it hard to get MVP votes. His team is behind the Cardinals and Pirates, (both of whom are chasing the Reds). David Wright’s problem is that the Mets are out of contention and his numbers are sagging because he’s being pitched around now. I think the MVP will likely be McCutchen or Holliday.
AMERICAN LEAGUE
Base Produced
Miguel Cabrera DET 361 in 131 games = 2.76 per game
Mike Trout LA 349 in 110 games = 3.17 per game
Edwin Encarnacion TOR 345 in 128 games = 2.70 per game
Josh Hamilton TEX 330 in 124 games = 2.66 per game
Robinson Cano NY 326 in 131 games = 2.49 per game
Adam Dunn CHI 320 in 130 games = 2.46 per game
Prince Fielder DET 319 in 132 games = 2.42 per game
Albert Pujols LA 318 in 126 games = 2.52 per game
Josh Willingham MIN 315 in 127 games = 2.48 per game
Curtis Granderson NY 312 in 131 games = 2.38 per game
Runs Produced
Miguel Cabrera DET 164 in 131 games = 1.25 per game
Josh Hamilton TEX 162 in 124 games = 1.31 per game
Mike Trout CAL 156 in 110 games = 1.42 per game
Prince Fielder DET 141 in 132 games = 1.07 per game
Ian Kinsler TEX 141 in 128 games = 1.10 per game
Josh Willingham MIN 141 in 127 games = 1.11 per game
Edwin Encarnacion TOR 139 in 128 games = 1.09 per game
Albert Pujols LA 138 in 126 games = 1.10 per game
Adrian Beltre TEX 134 in 128 games = 1.05 per game
Adrian Gonzalez, BOS 134 in 123 games = 1.09 per game
Comment: Cabrera may win the “double crown” of most bases and most runs produced but Mike Trout is well ahead of him and everybody else on a per game basis and is clearly a better all-around player. It’s likely between the two of them and Josh Hamilton for MVP. It could come down to team success. Hamilton’s team is in first place, Cabrera’s tied for first and Trout’s in third. By the way, Gonazlaez will disappear form the top ten next month because he’s now in the national league and the numbers don’t get added together, (unlike Hunter Pence who was traded to another team in the same league).
Traditional baseball numbers, as revered as they are, have been poor measures of how productive a player actually is. A batting average is not an average: it is a percentage of times a player gets a hit in at bats where he doesn’t walk, sacrifice, get hit by a pitch or get on base due to an error. Why not make it a percentage of all plate appearances: if he got on base due to an error, why should that be different- to him- than an out? There are players with high batting averages with no power who don’t walk and thus neither drive in or score a lot of runs, (Rod Carew, who drove in and scored 100 runs the year he hit .388 but did neither in any other year). There are home run hitters with mediocre batting averages but who walk a lot and they both score and drive in a lot of runs, (Harmon Killebrew, who never batted .300 but drove or scored 100 runs 11 times). There are home run hitters who struck out a lot, didn’t walk all that much and had low batting averages. They might hit a home run once a week but what about the rest of the time? There are base stealers like Luis Aparicio, who led the league 9 times in a row but never scored 100 runs because he hit .300 only once, rarely walked and had mediocre power. Eddie Yost stole 72 bases in his career, never hit .300, had a little more power but not a lot but scored 100 runs 5 times because he lead the league in walks six times.
It’s clear that baseball stats were in need of revision to refocus them on the goals of scoring runs and winning games. That’s why all the modern baseball stats that have come out in recent years were developed.
But I also think sports is supposed to be fun: we aren’t trying to put a man on the moon, just get an idea of why one team won, the other lost and how the players contributed to the result. I think numbers should be easy to compute and it should be clear to the average fan what they represent. “Earned Run Average” should be as complicated as it gets. Take the number of runs the official scorer feels should be blamed on the pitcher, divide by the number of innings pitched and multiply by 9 to determine how many runs he’d give up, on average, over nine innings that are his fault. I’m not into the fancy new stats that have come out in recent years with the weird names, such as “Total Average”, (an oxymoron), “Offensive Won-Lost Percentage”, “Super Linear Weights“, “Value Over Replacement” and “Win Shares”, among many others.
Bill James came up with a stat, “Runs Created” to determine how batting and base running contribute to the scoring of runs. His initial formula was: (hits + walks) x (total bases) divided by (at bats + walks). One problem I have with that is that hits, which are part of total bases, are counted twice. And why ‘times’ total bases? But he then factored in steals: (hits + walks - caught stealing) x (total bases + steals) divided by (at bats + walks). Eventually he expanded that to what he called his “technical version”: (hits + walks + hit by pitch - caught stealing - grounded into double play) x (total bases + 26% of (walks - minus intentional walks plus hit by pitch) + 52% of (sacrifice hits + sacrifice flies + stolen bases) decided by (at bats + walks + hit by pitch n+ sacrifice hits + sacrifice flies). Then he expanded that in 13 different “technical” formulas for different eras of baseball to acknowledge statistical gaps and differences in three eras. James goes to great lengths to prove that these formulas can predict runs actually scored but never explains why it is preferable to predict them rather than that to look them up and see how many runs were actually scored, as in “runs produced”: (runs + runs batted in) - home runs, (so they don’t get counted twice). What did happen means more that what should have happened. You’re trying to0 break down actual games, not create fantasy games.
Later when he came us with his revolutionary new system for evaluating players, Win Shares, Bill had to write an entire book to explain it, 85 pages of which are devoted to the formula he uses for it. A brief idea of it is that you divide up credit for the teams wins among it’s players by this statistical formula. Actually, you don’t divide up credit for the actual number of wins. You divide up credit for three times the number of wins. I won’t bother going beyond that.
One of the simpler formulas that have become popular these days is “On Base Plus Slugging”, or OPS, sometimes simply called “Production“. You add a player’s On Base Percentage to his Slugging Percentage and you’ve measured how often he hits, how hard he hit’s the ball and how many times he gets on base. Like that spaghetti sauce, whatever you are looking for “it’s in there”. First you compute On Base Percentage: (hits + walks + hit by pitch) divided by (official at bats plus walks plus hit by pitch). Then you compute slugging percentage: total bases divided by official at bats. “Official” at bats are total plate appearances minus walks, hit by pitch and sacrifices. Total bases are hits expanded to give one base for a single, two for a double, three for a triple and four for a home run.
Then you add the two percentages together to get a total” production” stat derived from some traditional numbers.
But you are adding percentages together, something that might make sense if the total opportunities, (divisors) were the same on both sides of the computation, which they aren’t here. And, again, hits are being double-counted in both the number of times on base and total bases. The resulting number is just that, a number: In 1961, Roger Maris had an OPS of .997 and Mickey Mantle had an OPS 1.138. But what does that mean? Mickey Mantle produced 1.138 something per every at bat? But is it per every ‘official’ at bat or all plate appearances or somewhere in between? And what is the “something“? Is it bases? When hits are counted twice? Should we count being hit by a pitch, when a batter isn’t trying to do that?
I think the average fan, (like me) gets lost in all this. Sports stats should be easily and logically computed, produce a number the meaning of which is clear and have a title which meets the same standard. Ideally a fan should be able to see a play on the field and be able to figure in his head how that changes the number. Averages are important in evaluating a player’s capabilities but gross numbers measure his actual achievements. Games are won by the plays you actually did make, not by projected accomplishments. If you are comparing starters with reserves, averages and percentages can be useful, but in ranking top players, I feel that gross numbers are better. They all start and usually play the whole game. You could still use averages to compare a player who missed a lot of games with one who played the whole season but what was the impact of the injured player on the games he didn’t play? Zero. That’s not reflected in the averages. It is in the gross figures.
There’s a lot of emphasis on isolating players from their teammates so that they can be measured as individuals. Runs scored and driven in are seen has being too much influenced by teammates even though they are obviously “bottom-line” figures: what you are trying to accomplish so you can win the game. So the new formulas emphasize “above the line” figures that are only important insofar as they contribute to the scoring of runs on the assumption that the above the line figures- hits, power, walks, steals, etc. are not or less affected by your teammates. I don’t buy it. Everything you do is affected by your teammates. If you have good teammates that create more scoring situations, drive you in more, and see to it that you have to be pitched to and have pitches to steal bases on, they are allowing you to fully display your skills and accomplish more. And when you watch games, it becomes obvious that it’s not just what you do but when you do it that counts.
With all this in mind, I thought about coming up with a simple way of ranking the offensive production of the best players in baseball. I prefer “runs produced” to “runs created” for evaluating actual scoring. As to base production, (which is what most of the modern formulas are really about), I tried to boil down OPS to something that made more sense. Take total bases, (one base for a single, two for a double, three for a triple and four for a home run), add walks and stolen bases.
In 1961, Roger Maris had 159 hits, which included 16 doubles, 4 triples and 61 home runs for 366 “total bases“, (really total hitting bases). He also walked 94 times. He didn’t steal a base. By the latest stats on baseballreferecne.com he had 141 RBIs, (not, as been historically listed, 142), and 132 runs scored. He produced (132 + 141 - 61 =) 212 runs and (366 + 94 +0 =) 460 bases. If you like averages, to keep to my theme of simplicity, I’d suggest simply averaging the numbers per game played, as the leagues top players will tend to be starters and play most or all of every game. Roger played 161 games in 1961 (and hit those 61 homers). He averaged 2.86 bases and 1.32 runs per game.
In 1961, Mickey Mantle had 163 hits, which included 16 doubles, 6 triples, 54 home runs for 353 total bases. He walked 126 times and stole 12 bases. He scored 131 runs, (not 132, as previous sources list) and drove in 128. He produced (131 + 128 - 54 =) 205 runs and (353 + 126 + 12 =) 491 bases. Mickey played 153 games and averaged 3.21 bases per game and 1.34 runs per game.
I think that’s easier to understand and more meaningful than Maris has a OPS of .997 and Mantle is at 1.138, or that Roger created, (by the simplest formula) 135 runs compared to 159 for Mickey, (when Roger produced 212 to Mickey’s 205), or that Roger had 36 “win shares“ and Mickey 48. It’s also more meaningful than Maris batted .269 and Mantle .317 or even that Maris hit 61 home runs to Mantle’s 54. They were comparable players that year, but Mickey was a little better.. Mantle produced more bases because he walked more and stole bases but Maris was the slightly better run producer. Incidentally, Maris batted third and Mantle 4th, so Mickey often drove Roger in but Roger didn’t drive Mickey in. One wonders if they might have been even more productive if they’d switched positions in the order, since Mickey got on base more.. But they were in a potent line-up so they both had plenty of opportunities to make good on their hitting and base running skills.
Again, numbers don’t answer all the questions you’d want to ask in ranking players and these numbers are only about tangible offensive contributions, not about defense, leadership, “the little things that show up in the box score“, etc. But I think everyone should know about them as they think and talk about players. And the numbers every kid knows about his favorite player shouldn’t be his batting average or even how many home runs he hit but how many bases has he produced and how many runs has he produced. It’s simple and meaningful. And I’m sure those enamored of more complicated stats can make a case for their stats being more precise measurements of a player’s abilities but I doubt their rankings of players would be that much different, for all the extra work. And a fan can watch a game and see a player hit a double, drive in a run, steal a base and score on a sac fly and realize that that player just produced three more bases and two more runs to add to his total in the morning paper. He wouldn’t need a calculator for that.
With that as a background, I thought I’d make a monthly post of the top ten in each league in bases and runs produced. Again there’s no need to ignore any other numbers, but you might want to have a look at these, especially at the end of the year when people start arguing about who should win awards.
After August, 2012 (I did this on 9/2/12 so it actually includes games of September 1st)
NATIONAL LEAGUE
Bases Produced
Ryan Braun MIL 365 in 124 games = 2.94 per game
Andrew McCutchen PIT 343 in 127 games = 2.70 per game
David Wright NY 330 in 129 games = 2.56 per game
Matt Holliday STL 326 in 130 games = 2.51 per game
Michael Bourn ATL 314 in 132 games = 2.38 per game
Jose Reyes MIA 313 in 131 games = 2.39 per game
Carlos Gonzalez COL 311 in 117 games = 2.66 per game
Chase Headley SD 311 in 133 games = 2.34 per game
Jason Heyward ATL 306 in 130 games = 2.35 per game
Aaron Hill ARZ 302 in 120 games = 2.52 per game
Runs Produced
Matt Holliday STL 151 in 130 games = 1.16 per game
Andrew McCutchen PIT 146 in 127 games = 1.15 per game
Ryan Braun MIL 145 in 124 games = 1.17 per game
Aramis Ramirez MIL 143 in 122 games = 1.17 per game
Freddie Freeman ATL 142 in 119 games = 1.19 per game
David Wright NY 140 in 129 games = 1.09 per game
Hunter Pence PHI/SF 136 in 131 games = 1.04 per game
Carlos Gonzalez COL 142 in 117 games = 1.21 per game
Melky Cabera SF 133 in 113 games = 1.18 per game
Jay Bruce CIN 132 in 128 games = 1.03 per game
Chase Headley SD 132 in 133 games = 0.99 per game
Comment: Ryan Braun is carrying some baggage from his drug suspension and so he may find it hard to get MVP votes. His team is behind the Cardinals and Pirates, (both of whom are chasing the Reds). David Wright’s problem is that the Mets are out of contention and his numbers are sagging because he’s being pitched around now. I think the MVP will likely be McCutchen or Holliday.
AMERICAN LEAGUE
Base Produced
Miguel Cabrera DET 361 in 131 games = 2.76 per game
Mike Trout LA 349 in 110 games = 3.17 per game
Edwin Encarnacion TOR 345 in 128 games = 2.70 per game
Josh Hamilton TEX 330 in 124 games = 2.66 per game
Robinson Cano NY 326 in 131 games = 2.49 per game
Adam Dunn CHI 320 in 130 games = 2.46 per game
Prince Fielder DET 319 in 132 games = 2.42 per game
Albert Pujols LA 318 in 126 games = 2.52 per game
Josh Willingham MIN 315 in 127 games = 2.48 per game
Curtis Granderson NY 312 in 131 games = 2.38 per game
Runs Produced
Miguel Cabrera DET 164 in 131 games = 1.25 per game
Josh Hamilton TEX 162 in 124 games = 1.31 per game
Mike Trout CAL 156 in 110 games = 1.42 per game
Prince Fielder DET 141 in 132 games = 1.07 per game
Ian Kinsler TEX 141 in 128 games = 1.10 per game
Josh Willingham MIN 141 in 127 games = 1.11 per game
Edwin Encarnacion TOR 139 in 128 games = 1.09 per game
Albert Pujols LA 138 in 126 games = 1.10 per game
Adrian Beltre TEX 134 in 128 games = 1.05 per game
Adrian Gonzalez, BOS 134 in 123 games = 1.09 per game
Comment: Cabrera may win the “double crown” of most bases and most runs produced but Mike Trout is well ahead of him and everybody else on a per game basis and is clearly a better all-around player. It’s likely between the two of them and Josh Hamilton for MVP. It could come down to team success. Hamilton’s team is in first place, Cabrera’s tied for first and Trout’s in third. By the way, Gonazlaez will disappear form the top ten next month because he’s now in the national league and the numbers don’t get added together, (unlike Hunter Pence who was traded to another team in the same league).